(11) Japanese Unexamined Patent Application Publication No.
`6-230378
`(43) Publication Date: August 19, 1994
`(21) Application No. 5-014823
`(22) Application Date: February 1, 1993
`(71) Applicant: Fine Plus Co., Ltd.
`(72) Inventor: Kisoo et al.
`(74) Agent: Patent Attorney, Shigenobu NAKAMURA
`
`(54) [Title of the Invention] BACKLIGHT APPARATUS FOR
`LIQUID CRYSTAL DISPLAY ELEMENT
`
`
`(57) [Abstract]
` [Object] An object is to provide a thin LCD backlight
`apparatus whose luminance does not vary from one area to
`another, thereby realizing uniform illumination.
` [Construction] The apparatus includes a molded resin LED
`lamp 10, in which plural LEDs are connected in series, a
`light conductor 11, which is provided at a light emitting
`side of the LED lamp 10, and a reflector 12, which surrounds
`the light conductor 11 with the lamp 10. The front surface
`of the light conductor 11 is a crimp-textured surface 11a
`formed by surface texturing. Recessed optical paths 11b,
`each of which extends in a light propagation direction and
`has a triangular shape in cross section, are formed in the
`
`- 1 -
`
`Sony Corp. Exhibit 1026
`
`SONY_000866
`
`
`6-230378
`(43) Publication Date: August 19, 1994
`(21) Application No. 5-014823
`(22) Application Date: February 1, 1993
`(71) Applicant: Fine Plus Co., Ltd.
`(72) Inventor: Kisoo et al.
`(74) Agent: Patent Attorney, Shigenobu NAKAMURA
`
`(54) [Title of the Invention] BACKLIGHT APPARATUS FOR
`LIQUID CRYSTAL DISPLAY ELEMENT
`
`
`(57) [Abstract]
` [Object] An object is to provide a thin LCD backlight
`apparatus whose luminance does not vary from one area to
`another, thereby realizing uniform illumination.
` [Construction] The apparatus includes a molded resin LED
`lamp 10, in which plural LEDs are connected in series, a
`light conductor 11, which is provided at a light emitting
`side of the LED lamp 10, and a reflector 12, which surrounds
`the light conductor 11 with the lamp 10. The front surface
`of the light conductor 11 is a crimp-textured surface 11a
`formed by surface texturing. Recessed optical paths 11b,
`each of which extends in a light propagation direction and
`has a triangular shape in cross section, are formed in the
`
`- 1 -
`
`Sony Corp. Exhibit 1026
`
`SONY_000866
`
`
`
`reverse surface of the light conductor 11.
`[Operation] Light emitted from the LED lamp 10 is guided
`partly through the recessed optical paths 11b to every nook
`and corner of the light conductor 11, and is diffused into
`multiple directions by the reflector 12 and the crimp-
`textured surface 11a.
`
`- 2 -
`
`SONY_000867
`
`
`
`[Claim]
`[Claim 1] A backlight apparatus for a liquid crystal
`display element, comprising:
`
`a light source that includes plural light emitting
`elements connected in a line;
`
`a flat light conductor for directing light emitted from
`the light source, said light conductor being provided at a
`light emitting side of the light source and having a light
`emission surface as a front surface; and
`
`a reflector that is provided behind a reverse surface
`of the conductor;
`
`wherein the front surface of the light conductor is a
`crimp-textured surface, and
`
`wherein many recessed optical paths extending in a
`light propagation direction are formed in the reverse
`surface.
`[Detailed Description of the Invention]
`[0001]
`[Field of Industrial Application] The present invention
`relates to a backlight apparatus for a liquid crystal
`display element that requires an illuminating light source.
`More particularly, the invention relates to a sidelight-type
`backlight apparatus that directs light of a light source to
`a light emission surface in a lateral direction (parallel
`direction).
`
`- 3 -
`
`SONY_000868
`
`
`
`[0002]
`[Description of the Related Art] A liquid crystal display
`(LCD) backlight apparatus is widely used as an illuminating
`light source for an LCD built in various kinds of equipment
`such as an electronic calculator, a digital watch/clock, a
`personal computer, a personal word processor, and the like.
`A sidelight backlight apparatus, which includes a light
`source made up of plural light emitting elements [e.g.,
`light emitting diodes (LED)] connected at regular intervals,
`and a light conductor (light guiding plate) provided at a
`light emitting side of the light source, is known as a type
`of such a backlight apparatus. In a sidelight backlight
`apparatus, typically, the front/top of a light conductor
`functions as a light emission surface, and other surfaces
`(back and sides) function as reflection surfaces. In such a
`backlight apparatus, light emitted from a light source is
`diffused in and by a light conductor and is finally
`outputted in multiple directions from a light emission
`surface. To increase efficiency in light diffusion, in some
`apparatuses, the inside of a light emission surface is crimp
`(pear's skin) textured, or a light-transmissive diffusion
`sheet is on the outside of the light emission surface.
`[0003]
`[Problems to be Solved by the Invention] In a backlight
`apparatus according to prior art described above, since the
`
`- 4 -
`
`SONY_000869
`
`
`
`intensity of LED light decreases with distance from a light
`source, though it is bright at an area near the light source,
`luminance decreases in proportion to the distance. To
`overcome this relationship, a known apparatus offers
`illumination with greater uniformity by diffusing light by
`means of a reflector (reflection plate). However, the
`problem of differences in the level of lightness/darkness
`between the center area of a light emission surface and the
`peripheral area thereof (darker at the peripheral area) has
`not been solved yet.
`[0004]
`
`One known approach for obtaining uniform illumination
`is to increase the intensity of illumination by increasing
`the number of LEDs or raising a voltage applied to LEDs.
`However, if this approach is taken, it will not only
`increase the amount of heat generated by the light source
`but also accelerate the deterioration of the light source.
`Another known solution is to provide partitions, etc., in a
`light conductor or a reflector for obtaining uniform and
`sharp illumination. However, such a structure is more
`complex, and significantly decreases light transmittance.
`[0005]
`
`The thickness of prior-art backlight apparatuses is
`within a range from 2.5 to 6.0 mm. In the art, it is
`difficult to reduce a thickness to 2.0 mm or less. The
`
`- 5 -
`
`SONY_000870
`
`
`
`present invention has been made in view of the above
`problems. An object of the invention is to provide a thin
`LCD backlight apparatus whose luminance does not vary from
`one area to another, thereby realizing uniform illumination.
`[0006]
`[Means for Solving the Problems] In order to achieve the
`above object, a liquid crystal display backlight apparatus
`according to the present invention comprises: a light source
`that includes plural light emitting elements connected in a
`line; a flat light conductor for directing light emitted
`from the light source, said light conductor being provided
`at a light emitting side of the light source and having a
`light emission surface as a front surface; and a reflector
`that is provided behind a reverse surface of the conductor;
`wherein the front surface of the light conductor is a crimp-
`textured surface, and wherein many recessed optical paths
`extending in a light propagation direction are formed in the
`reverse surface.
`[0007]
`[Operation] The most part of light emitted from the light
`source go into the light conductor and propagates inside the
`light conductor while being diffused in multiple directions.
`A part of the emitted light goes through the recessed
`optical paths, which are formed in the reverse surface. In
`this process, the light is diffused by the optical paths,
`
`- 6 -
`
`SONY_000871
`
`
`
`and is irregularly reflected by the reflector for reflected
`diffusion. Direct light, which propagates straight toward
`the light emission surface of the light conductor, and
`diffused reflected light, are finally diffused and outputted
`in multiple directions by the crimp-textured surface when
`passing therethrough.
`[0008]
`
`That is, in the backlight apparatus of the invention,
`light is guided partly through the recessed optical paths to
`every nook and corner of the light conductor. In addition,
`reflection by the reflector and diffusion by the crimp-
`textured surface produce synergistic effects. For these
`reasons, an illuminating light source that achieves uniform
`light emission with high brightness is provided.
`[0009]
`[Embodiment] On the basis of an exemplary embodiment, a
`backlight apparatus according to the present invention will
`now be explained. Fig. 1 is an exploded perspective view
`that illustrates, for example, a liquid crystal display
`(LCD) in which a backlight apparatus according to an
`exemplary embodiment is built as a light source for
`illuminating a liquid crystal display element with backlight.
`Fig. 2 is an essential-part sectional view thereof. In the
`illustrated example, a backlight apparatus 1 is mounted on a
`circuit board 2 that has a suitable size. A liquid crystal
`
`- 7 -
`
`SONY_000872
`
`
`
`device 3, which is bridged over the backlight apparatus 1,
`is mounted on the circuit board 2. The liquid crystal
`device 3 is enclosed by a cover 4, which is also on the
`circuit board 2.
`[0010]
`
`The backlight apparatus 1, which will be described
`later in detail, includes a molded resin LED lamp (light
`source) 10, in which plural LEDs are aligned and connected
`in series as light emitting elements, a light conductor
`(light guiding plate) 11, which is provided at a light
`emitting side of the LED lamp 10 and has a shape of a plate
`extending in a direction in which light propagates, and a
`reflector (reflection plate) 12, which surrounds the
`surfaces (sides and back) of the light conductor 11
`excluding the light emission surface thereof. The LED lamp
`10 is connected to the wiring pattern (not shown) of the
`circuit board 2.
`[0011]
`
`The liquid crystal device 3 has a structure in which an
`LCD 30 is sandwiched between two polarization plates 31 and
`32. A connector 33 for connection to the wiring pattern of
`the circuit board 2 is fixed to the LCD 30. The liquid
`crystal device 3 is a prior-art device and is not a part of
`the gist of the invention. Therefore, a detailed
`explanation is not given here. Fig. 3(a) is a plan view of
`
`- 8 -
`
`SONY_000873
`
`
`
`the backlight apparatus 1. Fig. 3(b) is a sectional view
`taken along the line A-A of Fig. 3(a). Fig. 4 is an
`exploded perspective view. As described above, the LED lamp
`10 is manufactured by connecting plural LEDs in series and
`resin-molding them. Though not illustrated in the drawing,
`for example, the LED lamp 10 can be manufactured by using
`lead frames on each of which an LED chip is mounted,
`connecting the lead frame to the LED chip by means of an Au
`wire, connecting lead frames that are adjacent to each other
`by means of an Au wire, and resin-molding the entire
`structure.
`[0012]
`
`In the present embodiment, the LED lamp 10 described
`above is inserted at one edge portion of the light conductor
`11 (refer to Fig. 4). As partially illustrated in Fig. 4,
`the light emission surface 11a of the light conductor 11 is
`a crimp-textured surface formed by (pear's skin) surface
`texturing. The crimp-textured surface 11a has a diffusing
`function when light guided by the light conductor 11 finally
`passes through the light emission surface 11a.
`[0013]
`
`The back (reverse surface, which is the opposite of the
`light emission surface) of the light conductor 11 has many
`recessed optical paths 11b extending in the light
`propagation direction from an edge that is closest to the
`
`- 9 -
`
`SONY_000874
`
`
`
`LED lamp 10 to the opposite edge. In the present embodiment,
`each of the recessed optical paths 11b has a triangular
`shape in cross section (refer to Fig. 6). Because of the
`presence of the recessed optical paths 11b, the back of the
`light conductor 11 is serrated. Therefore, there are gap
`spaces between the serrated surface 11b and the reflector 12.
`The gap spaces function as said optical paths. Since there
`are the optical paths 11b, light emitted from the LED lamp
`10 propagates farther stably.
`[0014]
`
`The reflector 12 has a housing space 12a for
`accommodating the light conductor 11 with the LED lamp 10.
`The light conductor 11 is fitted into the housing space 12a.
`The inner surfaces of the housing space 12a are formed as
`reflection surfaces for reflecting light going out through
`the sides and back of the light conductor 11. Next, the
`operation of the backlight apparatus 1 having the structure
`described above will now be explained with reference to Fig.
`5 (longitudinal sectional view along the recessed optical
`paths 11b) and Fig. 6 (cross sectional view across the
`recessed optical paths 11b). The most part of light emitted
`from the LED lamp 10 propagates inside the light conductor
`11 and is diffused in multiple directions. The remaining
`part of the light goes into the optical paths 11b at the
`back of the light conductor 11 to be diffused by the
`
`- 10 -
`
`SONY_000875
`
`
`
`serrated surface 11b, and is irregularly reflected by the
`reflector 12 for reflected diffusion. Needless to say,
`light that arrives at the reflector 12 after having passed
`through the light conductor 11 is reflected by the reflector
`12. Direct light, which propagates straight toward the
`light emission surface 11a of the light conductor 11, and
`diffused reflected light, are finally diffused and outputted
`in multiple directions by the crimp-textured surface 11a
`when passing therethrough.
`[0015]
`
`As described above, since a part of light emitted from
`the LED lamp 10 propagates through the recessed optical
`paths 11b, the light reaches throughout the entire effective
`light emission surface area. In addition, reflection by the
`reflector 12 and diffusion by the crimp-textured surface 11a
`produce synergistic effects. For these reasons, a high-
`quality illuminating light source that achieves uniform
`light emission with high brightness is provided. Therefore,
`the entire surface of the LCD 30 of the liquid crystal
`device 3 is illuminated with the light uniformly.
`Consequently, the prior-art problem of differences in the
`level of lightness/darkness from one spot to another on the
`LCD 30 does not occur.
`[0016]
`
`In the embodiment described above, each of the recessed
`
`- 11 -
`
`SONY_000876
`
`
`
`optical paths 11b formed in the back of the light conductor
`11 has a triangular shape in cross section as illustrated in
`Fig. 7(a). However, the cross-sectional shape of the path
`11b is not limited to a triangle as long as it functions as
`an optical path. For example, the path 11b may have a
`circular (Fig. 7(b)), hexagonal (Fig. 7(c)), or quadrangular
`(Fig. 7(d)) shape. To increase an effective light emission
`area size by increasing the depth of the light conductor 11,
`that is, by increasing the length of the recessed optical
`path 11b in the extending direction, preferably, for example,
`in addition to one LED lamp provided along one edge of the
`light conductor 11, another LED lamp should be provided
`along the opposite edge thereof. With such dual sidelight,
`it is possible to increase the depth up to approximately 65
`mm without impairing uniform light emission.
`[0017]
`
`In the embodiment described above, an LED lamp is used
`as the light source. However, needless to say, the scope of
`the invention is not limited thereto. Other light emitting
`element such as an EL lamp, a white-light lamp, etc., may be
`used.
`[0018]
`[Advantages] Since an LCD backlight apparatus according to
`the present invention has the structure explained above, it
`produces the following effects:
`
`- 12 -
`
`SONY_000877
`
`
`
`(1) Since a light conductor has a crimp-textured front
`surface and a recessed reverse surface, a part of light
`emitted from a light source propagates through the recessed
`optical paths, and the light reaches throughout the entire
`effective light emission surface area; in addition, because
`of synergistic effects produced by reflection by a reflector
`and diffusion by the crimp-textured surface, the light is
`diffused and outputted in multiple directions efficiently;
`the differences in the level of lightness between the center
`area of the light emission surface and the peripheral area
`thereof are eliminated. Consequently, an illuminating light
`source that achieves uniform light emission with high
`brightness is provided.
`(2) It is not necessary to increase the number of light
`emitting elements or raise a voltage applied thereto. Nor
`is it necessary to provide partitions, etc., in a light
`conductor or a reflector. Therefore, the amount of heat
`generated by a light source does not increase, and
`accelerated deterioration of the light source does not occur.
`In addition, the structure is simple, and there is no
`significant decrease in light transmittance.
`(3) The structure of the invention diffuses light into
`multiple directions by means of the recessed optical paths
`of the light conductor, the crimp-textured surface of the
`light conductor, and the reflector. Therefore, it is
`
`- 13 -
`
`SONY_000878
`
`
`
`possible to provide a thin low-profile apparatus, for
`example, one having a thickness of 2.5 mm or less (in
`particular, 2.0 mm).
`[Brief Description of the Drawings]
`[Fig. 1] Fig. 1 is an exploded perspective view of a liquid
`crystal display in which a backlight apparatus according to
`an exemplary embodiment of the invention is built as an
`illuminating light source;
`[Fig. 2] Fig. 2 is an essential-part sectional view of the
`liquid crystal display illustrated in Fig. 1;
`[Fig. 3] Fig. 3(a) is a plan view of the backlight
`apparatus of the embodiment, and Fig. 3(b) is a sectional
`view taken along the line A-A of Fig. 3(a);
`[Fig. 4] Fig. 4 is an exploded perspective view of the
`backlight apparatus illustrated in Fig. 3;
`[Fig. 5] Fig. 5 is a diagram for explaining the operation
`of the backlight apparatus illustrated in Fig. 3;
`[Fig. 6] Fig. 6 is a diagram for explaining the operation
`of the backlight apparatus illustrated in Fig. 3; and
`[Fig. 7] Fig. 7(a) is a sectional view that illustrates the
`shape of recessed optical paths of a light conductor of the
`backlight apparatus illustrated in Fig. 3; and each of Figs.
`7(b), 7(c), and 7(d) is a sectional view of a variation
`example thereof.
`[Reference Numerals]
`
`- 14 -
`
`SONY_000879
`
`
`
`1 backlight apparatus for liquid crystal display element
`10 LED lamp (light source)
`11 light conductor
`11a crimp-textured surface (light emission surface)
`11b recessed optical path
`12 reflector
`
`- 15 -
`
`SONY_000880
Accessing this document will incur an additional charge of $.
After purchase, you can access this document again without charge.
Accept $ Charge
Still Working On It
This document is taking longer than usual to download. This can happen if we need to contact the court directly to obtain the document and their servers are running slowly.
Give it another minute or two to complete, and then try the refresh button.
A few More Minutes ... Still Working
It can take up to 5 minutes for us to download a document if the court servers are running slowly.
Thank you for your continued patience.
This document could not be displayed.
We could not find this document within its docket. Please go back to the docket page and check the link. If that does not work, go back to the docket and refresh it to pull the newest information.
Your account does not support viewing this document.
You need a Paid Account to view this document. Click here to change your account type.
Your account does not support viewing this document.
Set your membership
status to view this document.
With a Docket Alarm membership, you'll
get a whole lot more, including:
- Up-to-date information for this case.
- Email alerts whenever there is an update.
- Full text search for other cases.
- Get email alerts whenever a new case matches your search.
One Moment Please
The filing “” is large (MB) and is being downloaded.
Please refresh this page in a few minutes to see if the filing has been downloaded. The filing will also be emailed to you when the download completes.
Your document is on its way!
If you do not receive the document in five minutes, contact support at support@docketalarm.com.
Sealed Document
We are unable to display this document, it may be under a court ordered seal.
If you have proper credentials to access the file, you may proceed directly to the court's system using your government issued username and password.
Access Government Site
