WO2009154018A1 - 光源保持具、照明装置、表示装置及びテレビ受信装置 - Google Patents
光源保持具、照明装置、表示装置及びテレビ受信装置 Download PDFInfo
- Publication number
- WO2009154018A1 WO2009154018A1 PCT/JP2009/052667 JP2009052667W WO2009154018A1 WO 2009154018 A1 WO2009154018 A1 WO 2009154018A1 JP 2009052667 W JP2009052667 W JP 2009052667W WO 2009154018 A1 WO2009154018 A1 WO 2009154018A1
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- WO
- WIPO (PCT)
- Prior art keywords
- light source
- cold cathode
- lamp
- chassis
- arm
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V19/00—Fastening of light sources or lamp holders
- F21V19/0075—Fastening of light sources or lamp holders of tubular light sources, e.g. ring-shaped fluorescent light sources
- F21V19/008—Fastening of light sources or lamp holders of tubular light sources, e.g. ring-shaped fluorescent light sources of straight tubular light sources, e.g. straight fluorescent tubes, soffit lamps
- F21V19/009—Fastening of light sources or lamp holders of tubular light sources, e.g. ring-shaped fluorescent light sources of straight tubular light sources, e.g. straight fluorescent tubes, soffit lamps the support means engaging the vessel of the source
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133602—Direct backlight
- G02F1/133604—Direct backlight with lamps
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133602—Direct backlight
- G02F1/133608—Direct backlight including particular frames or supporting means
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/64—Constructional details of receivers, e.g. cabinets or dust covers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
- F21Y2103/00—Elongate light sources, e.g. fluorescent tubes
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/66—Transforming electric information into light information
Definitions
- the present invention relates to a light source holder, a lighting device, a display device, and a television receiver.
- a liquid crystal panel used for a liquid crystal display device such as a liquid crystal television does not emit light spontaneously, and therefore a backlight device is separately required as a lighting device.
- This backlight device is installed on the back side of the liquid crystal panel (the side opposite to the display surface), the chassis having an open surface on the liquid crystal panel side, the reflective sheet laid in the chassis, the chassis Multiple cold cathode fluorescent lamps arranged in parallel in the interior, and multiple optical members (diffusion sheets, etc.) for efficiently emitting light emitted from the cold cathode fluorescent lamps arranged in the opening of the chassis to the liquid crystal panel side And a lamp clip for supporting an intermediate portion of the cold cathode tube having an elongated tubular shape.
- patent document 1 is known as an example of a lamp clip.
- This is configured such that a plurality of lamp gripping portions capable of individually gripping the cold cathode tubes are provided in a main body portion attached to the chassis.
- the lamp gripping portion has an end-like annular shape that opens toward the opening side of the chassis, that is, the front side, and the cold cathode tube can be attached and detached from the front side.
- the installation positions of the lamp gripping portions in the lamp clip having the above-described configuration are fixed, and the distance between the lamp gripping portions is the same size as the pitch between the cold cathode tubes arranged in parallel in the chassis. It has become. That is, the lamp clip is a dedicated product corresponding to the arrangement pattern of the cold cathode tubes.
- the arrangement pattern of the cold cathode fluorescent lamps can be changed according to various circumstances as follows. For example, when the number of cold cathode tubes used in the backlight device differs depending on the screen size of the liquid crystal panel, the pitch between the cold cathode tubes can be changed accordingly. In addition, even if the screen size is the same, the performance (spec) such as luminance required by the model (grade) differs, so that the number and the pitch of the cold cathode tubes may be changed.
- the arrangement pattern of the cold cathode fluorescent lamps can take various forms.
- the lamp clip is a dedicated product individually corresponding to each arrangement pattern. Therefore, a lamp clip corresponding to each arrangement pattern is provided.
- Each must be manufactured.
- the present invention has been completed based on the above situation, and aims to reduce the number of varieties.
- the light source holder of the present invention holds at least one of a plurality of linear light sources arranged in parallel, and extends along the parallel direction of the linear light sources, and between the linear light sources between the front ends.
- a pair of arms that can sandwich the linear light source, and at least one of the surfaces of the pair of arms facing the linear light source has the line
- a plurality of light source receivers for receiving the shaped light sources are arranged side by side along the parallel direction.
- the linear light source when the linear light source is mounted through the opening between the tip portions of the two arm portions, the linear light source is sandwiched between the two arm portions.
- the linear light source can be selectively received by any one of the plurality of light source receivers arranged side by side on the surface of the arm portion facing the linear light source,
- the degree of freedom of the mounting position of the linear light source is high. Thereby, it can respond to the arrangement pattern of various linear light sources.
- the said light source receiving part shall be the structure formed so that adjacent things may continue. In this way, since the interval between the light source receiving portions can be reduced to zero, the attachment position of the linear light source can be set finely, and the degree of freedom of the attachment position of the linear light source can be further increased.
- the dimension in the parallel direction of the light source receiver is configured to be smaller than the diameter dimension of the linear light source. In this way, the attachment position of the linear light source can be set more finely.
- An interval between the light source receiving portions is configured to be smaller than a minimum value of the interval between the linear light sources that can be set. In this way, the attachment position of the linear light source can be set more finely.
- the said light source receiving part is set as the structure formed by denting the opposing surface with the said linear light source in the said arm part. In this way, it is possible to reduce the distance between the two arm portions as compared with the case where the light source receiving portion is formed by projecting the surface facing the linear light source in the arm portion, which is suitable for downsizing. It becomes.
- the light source receiver is configured to be formed in a substantially arc shape along the outer peripheral surface of the linear light source. If it does in this way, a linear light source can be supported appropriately.
- the light source receiving portion is provided on both of the pair of arm portions. In this way, since the light source receiving portions are formed on both the arm portions that sandwich the linear light source, the holding function for the linear light source can be improved.
- a plurality of the linear light sources are attached between the pair of arm portions, and the light source receiving portions are installed more than the number of the linear light sources to be attached. . If it does in this way, it will become suitable for what attaches a plurality of linear light sources between both arm parts.
- a support portion capable of supporting an optical member arranged in a facing manner with respect to the linear light source is provided, and the pair of arm portions are formed to be connected to the support portion. In this way, since both arm portions are connected to the support portion having a support function for the optical member, the structure can be simplified.
- a surface of the arm portion opposite to the linear light source side is formed in a mountain shape. If it does in this way, it will become possible to reflect efficiently the light emitted from the linear light source with the surface formed in the mountain shape in the arm part.
- (10) It has a main body portion that has a substantially plate shape along the axial direction of the linear light source and the parallel direction, and the pair of arm portions are arranged in the axial direction and the parallel direction of the main body portion. It is set as the structure currently formed so that it may be arranged within the range. If it does in this way, both arm parts will be protected by the main-body part, and other parts will become difficult to interfere with both arm parts.
- (11) It has a main body portion that has a substantially plate shape along the axial direction and the parallel direction of the linear light source, and the pair of arm portions adjacent to the main body portion are connected to the main body portion.
- the structure is formed. If it does in this way, the intensity of the arm part which continues to the main part can be improved.
- the pair of arm portions are integrally formed. In this way, it is possible to manufacture at a lower cost compared to the case where both arm portions are separate parts.
- an illumination device houses the light source holder described above, the linear light source held by the light source holder, the linear light source, and the light source holder. And a chassis to which the tool is attached.
- a plurality of the light source holders are attached to the chassis, and the openings are arranged so as to face the center side of the chassis.
- the center side of the chassis has fewer structures that can obstruct the attachment and detachment of the linear light source to the light source holder compared to the end side. Therefore, it is excellent in workability for attaching and detaching the linear light source.
- a display device of the present invention includes the above-described illumination device and a display panel that performs display using light from the illumination device.
- the manufacturing cost can be reduced.
- a liquid crystal panel can be exemplified as the display panel.
- Such a display device can be applied as a liquid crystal display device to various uses such as a display of a television or a personal computer, and is particularly suitable for a large screen.
- the types of light source holders can be reduced.
- FIG. 1 is an exploded perspective view showing a schematic configuration of a television receiver according to Embodiment 1 of the present invention. Exploded perspective view showing schematic configuration of liquid crystal display device Sectional drawing which shows the lamp clip in a liquid crystal display device Top view showing the chassis with the lamp clip installed Top view of the lamp clip XX sectional view of FIG.
- Sectional drawing of the lamp clip which concerns on Embodiment 3 of this invention The top view of the chassis which attached the lamp clip which concerns on Embodiment 4 of this invention.
- Sectional drawing of the lamp clip which concerns on Embodiment 6 of this invention Sectional drawing of the lamp clip which concerns on Embodiment 7 of this invention.
- Sectional drawing of the lamp clip which concerns on Embodiment 9 of this invention Sectional drawing of the lamp clip which concerns on Embodiment 10 of this invention.
- Sectional drawing which shows the state before attaching a lamp clip to a chassis Sectional drawing which shows the state before sliding a lamp clip
- SYMBOLS 10 Liquid crystal display device (display device), 11 ... Liquid crystal panel (display panel), 12 ... Backlight device (illumination device), 14 ... Chassis, 16 ... Optical member, 18 ... Cold cathode tube (linear light source), 20 ... Lamp clip (light source holder), 24... Body part, 26... Support pin (support part), 30 and 31... Arm part, 32 ... lamp receiver part (light source receiver part), 33. apparatus
- FIGS. 1 A first embodiment of the present invention will be described with reference to FIGS.
- the liquid crystal display device 10 including the liquid crystal panel 11 is illustrated.
- the upper and lower directions will be described with reference to FIGS. 2 and 3, with the upper side of the figure as the front side and the lower side of the figure as the back side.
- a part of each drawing shows an X-axis, a Y-axis, and a Z-axis, and each axis direction is drawn to be a direction shown in each drawing.
- the liquid crystal display device 10 has a horizontally long rectangular shape as a whole. As shown in FIG. 2, the liquid crystal display device 10 emits light toward the liquid crystal panel 11 on the back side (back side) of the liquid crystal panel 11 that is a display panel capable of displaying an image. A backlight device 12 that is an external light source (illumination device) that can be irradiated is arranged, and these are integrally held by a frame-like bezel 13 or the like.
- the liquid crystal display device 10 can be applied to a television receiver TV. As shown in FIG. 1, a television receiver TV is a tuner T for receiving a liquid crystal display device 10, both front and back cabinets Ca and Cb accommodated with the liquid crystal display device 10 sandwiched therebetween, a power source P, and television broadcasting. And a stand S.
- the liquid crystal panel 11 is interposed between a pair of transparent (translucent) glass substrates having a horizontally long rectangular shape, and both substrates. And a liquid crystal layer (not shown) containing liquid crystal molecules which are changing substances, and both substrates are bonded together with a sealing agent (not shown) while maintaining a gap corresponding to the thickness of the liquid crystal layer.
- the front side is a CF substrate and the back side (back side) is an array substrate.
- the inner surface side of the array substrate the liquid crystal layer side and the surface facing the CF substrate
- TFTs Thin Film Transistors
- pixel electrodes which are switching elements, are provided side by side, and around these TFT and pixel electrodes Are arranged so as to surround a gate wiring and a source wiring in a lattice shape.
- the pixel electrode is made of a transparent electrode such as ITO (Indium Tin Oxide) or ZnO (Zinc Oxide).
- the CF substrate is provided with a large number of color filters arranged at positions corresponding to the respective pixels.
- the color filter is arranged so that three colors of R, G, and B are alternately arranged.
- a light shielding layer (black matrix) for preventing color mixture is formed between the color filters.
- a counter electrode facing the pixel electrode on the array substrate side is provided on the surface of the color filter and the light shielding layer.
- An alignment film for aligning liquid crystal molecules contained in the liquid crystal layer is formed on the inner surfaces of both substrates. Further, polarizing plates are respectively attached to the outer surface sides of both substrates.
- the backlight device 12 is a so-called direct-type backlight in which a light source is disposed directly under the back surface of the liquid crystal panel 11, and is a substantially box opened on the front side (light emitting side).
- a chassis 14 forming a mold, a reflection sheet 15 laid in the chassis 14, an optical member 16 attached to an opening of the chassis 14, a frame 17 for fixing the optical member 16, and a parallel arrangement in the chassis 14
- the light emission direction in the backlight device 12 is the Z-axis direction in each figure.
- the chassis 14 is made of metal, and includes a bottom plate 14a having a horizontally long rectangular shape similar to the liquid crystal panel 11, and a side plate rising from the periphery of the bottom plate 14a.
- the bottom plate 14 a constitutes an attachment surface to which the lamp clip 20 is attached, and a plurality of attachment holes 21 to which the lamp clip 20 can be attached are provided.
- the mounting holes 21 have a circular shape when seen in a plan view, and a pair of mounting holes 21 are prepared corresponding to one lamp clip 20, and are arranged at the planned mounting positions of the lamp clips 20 on the bottom plate 14 a.
- the reflection sheet 15 is made of a synthetic resin exhibiting white having excellent light reflectivity, and is laid so as to cover almost the entire inner surface of the chassis 14. With this reflection sheet 15, most of the light emitted from each cold cathode tube 18 can be guided to the opening side of the chassis 14.
- the reflection sheet 15 is provided with a plurality of insertion holes 23 through which attachment portions 27 that are attachment structures of the lamp clips 20 to the chassis 14 can be inserted.
- Each insertion hole 23 is disposed at a position corresponding to each mounting hole 21 in the chassis 14, and more specifically, in a state where the reflection sheet 15 is laid on the chassis 14, the insertion hole 23 is superimposed on each mounting hole 21 in a plan view. It is said that. Further, the insertion hole 23 has a circular shape when seen in a plan view, and its diameter is slightly larger than that of the mounting hole 21.
- the cold cathode tube 18 is a kind of linear light source (tubular light source), and as shown in FIG. 4, the axial direction of the cold cathode tube 18 coincides with the long side direction (X-axis direction) of the chassis 14 in the chassis 14. A plurality of them are arranged in such a manner that their axes are substantially parallel to each other and at a predetermined interval therebetween. Therefore, the parallel direction of the cold cathode tubes 18 coincides with the short side direction (Y-axis direction) of the chassis 14. Further, the axial direction (Y-axis direction) and the parallel direction (X-axis direction) of the cold cathode tubes 18 are substantially parallel to the plate surface of the bottom plate 14a (the optical member 16 and the liquid crystal panel 11) of the chassis 14.
- the cold cathode tube 18 has a configuration in which mercury or the like is enclosed in a substantially cylindrical glass tube whose both ends are sealed, a phosphor is applied to its inner wall surface, and electrodes are enclosed at both ends. It is said.
- the cold cathode tube 18 has a tube diameter of about several millimeters, whereas the tube length is about several tens of centimeters to 1.5 meters and is very long as a whole, and the glass tube can be elastically deformed. .
- the outer peripheral surface of the cold cathode tube 18 has a circular cross-sectional shape along the parallel direction.
- the holder 19 is made of a synthetic resin exhibiting white with excellent light reflectivity, covers the end portion (non-light emitting portion) of the cold cathode tube 18 where the electrode is installed, and extends along the short side direction of the chassis 14. It is a long and thin box.
- the optical member 16 has a short edge between the holder 19 and the frame 17 and a long edge between the chassis 14 and the frame 17. It is fixed by being pinched by.
- the optical member 16 includes a diffusion plate 16 a disposed so as to cover the opening of the chassis 14 and a plurality of optical sheets 16 b disposed between the diffusion plate 16 a and the liquid crystal panel 11.
- the diffuser plate 16a is formed by dispersing and mixing light scattering particles in a synthetic resin plate-like member, and has a function of diffusing linear light emitted from the cold cathode tube 18 serving as a linear light source (tubular light source).
- the optical sheet 16b disposed on the diffusion plate 16a is a laminate of a diffusion sheet, a lens sheet, and a reflective polarizing plate in order from the diffusion plate 16a side.
- the optical sheet 16b is emitted from the cold cathode tube 18 and passes through the diffusion plate 16a. It has a function of converting the light that has passed through into planar light.
- the lamp clip 20 is made of a synthetic resin (for example, made of polycarbonate) exhibiting white light with excellent light reflectivity, and is a substantially plate along the bottom plate 14a of the chassis 14 (the axial direction and the parallel direction of the cold cathode tubes 18).
- a body portion 24 (mounting plate, base portion) having a substantially rectangular shape in plan view is provided.
- the lamp clip 20 has a posture in which the long side direction (Y-axis direction) of the main body 24 is substantially parallel to the short side direction of the chassis 14 with respect to the chassis 14, that is, in parallel with the cold cathode tubes 18. It is attached in a posture (direction, state) substantially parallel to the direction (direction orthogonal to the axial direction, X-axis direction).
- the lamp clip 20 is installed at a plurality of dispersed positions on the bottom plate 14 a of the chassis 14. Specifically, as shown in FIG. 4, each lamp clip 20 is arranged in a zigzag shape (alternately, staggered), and two lamp clips 20 are arranged at a predetermined interval in the long side direction of the chassis 14. Four sets are installed in the short side direction of the chassis 14, and adjacent lamp clips 20 are arranged so as to be displaced in the long side direction of the chassis 14.
- a cold cathode tube 18 is provided on the front side surface of the main body 24 (the surface facing the optical member 16 and the cold cathode tube 18 side, the surface opposite to the chassis 14 side).
- a lamp holding part 25 for supporting at a predetermined height position and a support pin 26 for supporting the diffusion plate 16a at a position higher than the cold cathode tube 18 are provided.
- the lamp clip 20 is placed on the back surface of the main body 24 (the surface facing the chassis 14 or the reflection sheet 15 side, the surface opposite to the optical member 16 or the cold cathode tube 18 side) with respect to the chassis 14.
- a pair of mounting portions 27 for holding the mounting state is provided.
- the support pin 26 and the mounting portion 27 will be described in detail sequentially.
- the support pins 26 support the center portion of the screen from the back side of the outer peripheral edge portion supported by the holder 19 or the like in the diffusion plate 16 a, so that the diffusion plate 16 a is on the cold cathode tube 18 side. It is possible to regulate bending and warping.
- the support pin 26 is eccentrically disposed in the vicinity of one end portion (the right end portion shown in FIG. 3) of both ends of the main body portion 24 in the long side direction.
- the support pin 26 is formed in a tapered shape in which the cross-sectional shape cut along the horizontal direction is circular (FIG. 5), and the diameter gradually decreases from the root side to the tip side.
- the support pin 26 is formed in a substantially conical shape.
- An R surface is formed and rounded at the tip of the support pin 26 that can come into contact with the diffusion plate 16a.
- the protrusion height (dimension in the Z-axis direction) of the support pin 26 from the main body portion 24 is set to be higher than that of the lamp gripping portion 25, and the support pin 26 is a portion protruding at the highest position in the lamp clip 20. It has become. Accordingly, when performing the work of attaching / detaching the lamp clip 20 to / from the chassis 14, the operator can grasp the support pin 26 to perform the work, and the support pin 26 serves as an operation part at the time of attachment / detachment. Can also work.
- the pair of mounting portions 27 are respectively installed near both ends in the long side direction of the main body portion 24, and those installed near one end portion (the right end portion shown in FIG. 3) are front side support members.
- the pins 26 are arranged so as to overlap with each other in a plan view.
- the mounting portion 27 includes a base portion 28 that protrudes from the back surface of the main body portion 24, and a pair of protrusion portions 29 that are folded back from the front end of the base portion 28 toward the main body portion 24 side and face the side of the base portion 28. Yes.
- the base portion 28 protrudes substantially perpendicularly from the back surface of the main body portion 24, and the protruding direction coincides with the direction orthogonal to the plate surface of the main body portion 24.
- the base portion 28 has a substantially prismatic shape with a rectangular cross section, and the long side direction thereof coincides with the short side direction of the main body portion 24.
- the pair of projecting portions 29 are each formed in a cantilever shape projecting from both side surfaces on the long side of the projecting tip portion of the base portion 28, and project in opposite directions with respect to the long side direction in the main body portion 24. Therefore, both protrusions 29 are arranged side by side in the long side direction of the main body portion 24 with the base portion 28 interposed therebetween.
- the projecting portion 29 is inclined so as to gradually move away from the base portion 28 from the base end portion to the free end portion, and a direction in which the base portion 28 contacts and separates from the base portion 28 with the base end portion as a fulcrum (long side direction of the main body portion 24). ) Can be elastically deformed.
- the tip portion of the protrusion 29 is formed in a stepped shape with the outer portion being lower than the inner portion relatively close to the base portion 28, and the inner portion of the protrusion 29 is attached to the chassis 14 when attached to the chassis 14. While entering the hole 21, the outer portion is disposed outside the mounting hole 21.
- a surface of the outer portion facing the main body 24 is a locking surface that can be locked to the hole edge of the chassis 14 from the back side. The distance between the main body 24 and the locking surface is approximately the same as that obtained by adding the thickness dimensions of the chassis 14 and the reflection sheet 15.
- the lamp gripping portion 25 is composed of a pair of arm portions 30 and 31 that are substantially parallel to the main body portion 24 and are arranged to face each other in the Z-axis direction.
- the cold cathode tube 18 can be sandwiched between 30 and 31.
- both the arm portions 30 and 31 are arranged to be separated from each other on the optical member 16 side and the chassis 14 side with the mounting space for the cold cathode tube 18 interposed therebetween (via).
- Both arm portions 30 and 31 are configured to extend along the Y-axis direction, that is, along the parallel direction of the cold cathode tubes 18, and on the inner surfaces thereof, that is, the surfaces facing the cold cathode tubes 18,
- a plurality of lamp receiving portions 32 for receiving the cathode tube 18 are arranged side by side along the extending direction (length direction) of the arm portions 30, 31, that is, the parallel direction of the cold cathode tubes 18.
- both arm portions 30 and 31 are formed in a cantilever shape, and the extending direction is parallel to the cold cathode tubes 18 (the long side direction of the main body 24, the short side direction of the chassis 14, the cold cathode tube). 18 in the direction perpendicular to the axial direction (X-axis direction) and the direction perpendicular to the thickness direction (Z-axis direction) of the backlight device 12.
- Both arm portions 30 and 31 have their base end portions connected to the side surfaces of the support pin 26, respectively, while the free end portions (front end portions) open laterally opposite to the support pin 26 side.
- An opening 33 is formed.
- the cold cathode tube 18 is attached between the arm portions 30 and 31 through the opening 33.
- the attachment / detachment direction of the cold cathode tube 18 with respect to the lamp gripping portion 25 coincides with the extending direction of the arm portions 30, 31, that is, the parallel direction of the cold cathode tube 18.
- the upper arm portion 30 shown in FIG. 3 (opposite to the main body portion 24 side) of the both arm portions 30 and 31 has a base end portion as a fulcrum in the Z-axis direction, that is, the attachment / detachment direction of the cold cathode tube 18 and the cold cathode. It can be elastically deformed in a direction crossing the axial direction of the tube 18.
- the opening opening of the opening 33 is wider than that in the natural state, thereby allowing the cold cathode tube 18 to pass through the opening 33.
- the distance between the arm portions 30 and 31 is the widest at the free end (opening 33), and gradually decreases from the base end side (the two-dot chain line in FIG. 8). reference).
- both arm parts 30 and 31 are in a natural state, both arm parts 30 and 31 are substantially parallel to each other, and the distance between both arm parts 30 and 31 is substantially constant over the entire length including the opening 33.
- the size is smaller than the diameter of the cold cathode tube 18.
- both the arm portions 30 and 31 are rectangular in a plan view, and the long side direction (length direction) and the short side direction (width direction) coincide with those of the main body portion 24. Yes. Both arm portions 30 and 31 are accommodated within the range of the main body portion 24 in a two-dimensional space along the plate surface of the main body portion 24 (the axial direction and the parallel direction of the cold cathode tube 18). It does not protrude outward from the outer peripheral edge. Moreover, the length dimension of both the arm parts 30 and 31 is a larger value than the maximum value of the arrangement pitch between the cold cathode tubes 18 that can be set.
- the upper arm portion 30 shown in FIG. 3 that is, the surface facing the optical member 16 side in the arm portion 30 on the optical member 16 side (the opposite side to the surface facing the cold cathode tube 18).
- the surface has a pair of inclined surfaces 34 and is formed in a mountain shape.
- the inclined surface 34 is configured to form a downward gradient from the central position of the arm portion 30 in the short side direction (the axial direction of the cold cathode tube 18) toward the both end portions in the same direction. The light emitted from the cold cathode tube 18 can be efficiently reflected toward the optical member 16 by the inclined surfaces 34.
- the lower arm portion 31 shown in FIG. 3 that is, the arm portion 31 on the chassis 14 side is connected to the main body portion 24 as shown in FIGS. Is formed.
- the arm portion 31 is connected to the surface of the main body 24 facing the cold cathode tube 18 over the entire length and width, that is, the rigidity and strength are relatively increased as compared with the upper arm portion 30. ing.
- the lamp receiving portion 32 is configured to be recessed from the inner end position of the arm portions 30, 31 by recessing the inner surfaces of both the arm portions 30, 31.
- a plurality of lines 31 are arranged along the length direction of 31. That is, the parallel direction of the lamp receiving portion 32 coincides with the parallel direction of the cold cathode tubes 18.
- the number of lamp receivers 32 is set larger than the number of cold cathode tubes 18 that can be set.
- the lamp receiving portion 32 has a substantially arc shape in which the cross-sectional shape in the length direction of the arm portions 30, 31 substantially conforms to the shape of the outer peripheral surface of the cold cathode tube 18.
- the curvature of the lamp receiving portion 32 is larger than the curvature of the outer peripheral surface of the cold cathode tube 18.
- the recess depth gradually changes in the length direction of the arm portions 30 and 31, the center position in the same direction is the deepest, and both end positions in the same direction are the shallowest.
- the lamp receiving portion 32 has a substantially constant depth of depression in the width direction of the arm portions 30 and 31 (the axial direction of the cold cathode tube 18) (FIG. 6).
- Adjacent lamp receiving portions 32 are formed directly connected to each other. Specifically, the end portions in the parallel direction of each lamp receiving portion 32 are connected to each other, so that a plurality of lamp receiving portions 32 are formed continuously, and as a whole have a substantially wave shape that does not have a horizontal plane in the middle. Yes. Therefore, the interval between the adjacent lamp receiving portions 32 is zero. Moreover, the connection part of the adjacent lamp receiving part 32 has a sharp shape. Thus, by setting the interval between the lamp receiving portions 32 as small as possible, the mounting position of the cold cathode tube 18 can be designed in detail. Note that the dimension of the lamp receiving portion 32 in the parallel direction of the cold cathode tubes 18 is larger than the diameter of the cold cathode tubes 18. Further, the lamp receiving portions 32 formed on the upper and lower arm portions 30 and 31 have a positional relationship facing vertically (in the Z-axis direction), and the cold cathode tubes 18 are arranged in the parallel direction. Match.
- the cold cathode tube 18 When the cold cathode tube 18 is attached to the lamp gripping portion 25, it is possible to freely select any one of the lamp receiving portions 32 arranged side by side along the parallel direction of the cold cathode tube 18, The degree of freedom of the mounting position of the cold cathode tubes 18 is high, and this makes it possible to easily cope with various arrangement patterns of the cold cathode tubes 18.
- each lamp clip 20 with respect to the chassis 14 is set as follows. That is, as shown in FIG. 4, among the lamp clips 20, the lamp clips located on the upper side shown in FIG. 4 with respect to the reference line L (the center of the screen) crossing through the center position in the short side direction in the chassis 14. 20, the mounting positions are such that both arm portions 30 and 31 of the lamp gripping portion 25 are open toward the reference line L side, and the support pin 26 is opposite to the reference line L side (screen end) side. It has become.
- the lamp clip 20 located on the lower side shown in FIG. 4 with respect to the reference line L also has an attachment posture in which both arm portions 30 and 31 are opened toward the reference line L side. That is, it can be said that each lamp clip 20 is symmetrically arranged with respect to the reference line L in a state where all the lamp gripping portions 24 are opened inward.
- the liquid crystal display device 10 shown in FIG. 2 is manufactured by separately manufacturing the liquid crystal panel 11 and the backlight device 12 and assembling them with each other using the bezel 13 or the like. Next, an assembly operation of the backlight device 12, particularly an operation of attaching the lamp clip 20 to the chassis 14 and an operation of attaching the cold cathode tube 18 to the lamp clip 20 will be described in detail.
- each mounting portion 27 is placed on the bottom plate 14a of the chassis 14 while the opening 33 of the lamp gripping portion 25 opens toward the reference line L side in the chassis 14. It aligns with each mounting hole 21 of a planned mounting position.
- each attachment portion 27 is inserted into each attachment hole 21 from the front end side, and the projection 29 is an edge on the front side of the attachment hole 21.
- each lamp clip 20 is attached to the chassis 14 as described above, an operation for attaching the cold cathode tube 18 is performed. From the state shown in FIG. 8, the cold cathode tube 18 is placed in the chassis 14 along the Z-axis direction, and is disposed at a side position of the opening 33 of the lamp gripping portion 25. At this time, the cold-cathode tubes 18 attached to the lamp clips 20 near the reference line L (center of the screen) are inserted between the lamp holding portions 25 facing each other. On the other hand, the cold-cathode tube 18 attached to each lamp clip 20 near the both ends of the screen is inserted between the lamp gripping portion 25 of the lamp clip 20 and the support pin 26 in each lamp clip 20 near the reference line L.
- the arm portion 30 is elastically expanded and deformed to widen the opening of the opening 33 and the cold cathode tube 18 along the Y-axis direction. Slide. Then, the cold-cathode tube 18 is moved through the opening 33 to the space between the arm portions 30 and 31 toward the support pin 26, that is, from the screen center side to the screen end side. At this time, since the lamp receivers 32 arranged in parallel on the inner surfaces of both the arm units 30 and 31 are provided in a larger number than the number of cold cathode tubes 18 to be attached, the backlight device 12 among the lamp receivers 32 is provided.
- the cold-cathode tube 18 is moved until the specific lamp receiving portion 32 that meets the specifications is received, and the cold-cathode tube 18 is received by the lamp receiving portion 32. That is, the lamp receiving unit 32 is selected from the lamp receiving units 32 that is suitable for the position where the cold cathode tube 18 is to be mounted, and the lamp receiving unit 32 receives the cold cathode tube 18.
- the arm portion 30 is restored in this state, the cold cathode tube 18 is fitted into the upper and lower lamp receiving portions 32 and is sandwiched between the arm portions 30 and 31 in a state where movement in the Y-axis direction is restricted.
- each lamp clip 20 holds three cold cathode tubes 18.
- the attachment positions of the cold cathode tubes 18 with respect to the arm portions 30 and 31 are, for example, between the adjacent cold cathode tubes 18 in the attached state without the cold cathode tubes 18 being attached.
- Two lamp receiving portions 32 in a state are interposed.
- the distance between the lamp clips 20 adjacent to each other in the short side direction of the chassis 14 is the distance between the cold cathode tubes 18 (the distance between the two lamp receiving portions 32. ).
- the holder 19 After attaching the cold cathode tube 18 as described above, the holder 19 is then attached. Thereafter, the diffusion plate 16a and the optical sheets 16b are stacked and installed, and the backlight device 12 is assembled. After the liquid crystal panel 11 is further mounted from the front side, the liquid crystal display device 10 is assembled by assembling the bezel 13. .
- the number of cold cathode tubes 18 and the arrangement between the cold cathode tubes 18 can be changed accordingly.
- the pitch may be changed. Specifically, when the number of cold cathode tubes 18 used is 10 and less than those described in FIGS. 3 and 4, the arrangement pitch between the cold cathode tubes 18 is as shown in FIGS. It becomes wider than 4. In this case, as shown in FIG.
- the lamp clip 20 on the center side of the screen holds the three cold cathode tubes 18 and the lamp clip 20 on the end side of the screen holds the two cold cathode tubes 18, respectively.
- the mounting position of the cold cathode tube 18 with respect to the portion 25 is changed. Specifically, as shown in FIG. 10, the arrangement pitch between the cold cathode tubes 18 is expanded to the size of three lamp receiving portions 32, and the cold cathode tubes 18 are arranged in the lamp receiving portions so that the arrangement pitch can be maintained. 32 may be selected and attached. At this time, if it is necessary to change the mounting position of the lamp clip 20 with respect to the chassis 14, the structure of the lamp clip 20 can be handled without changing by changing the position of the mounting hole 21 in the chassis 14. it can.
- the arrangement pitch between the cold cathode tubes 18 is set to the size of one lamp receiving portion 32, and the mounting position of the cold cathode tubes 18 from each lamp receiving portion 32 so that the arrangement pitch can be maintained. Should be selected. In that case, if the mounting position of the lamp clip 20 with respect to the chassis 14 needs to be changed, it can be dealt with by changing the structure of the chassis 14 as described above. In the present embodiment, the minimum value of the arrangement pitch between the cold cathode tubes 18 that can be set is the size of one lamp receiving portion 32.
- the arrangement pitch between the cold cathode tubes 18 is changed according to the screen size of the liquid crystal panel 11.
- FIG. In that case, if the mounting position of the lamp clip 20 with respect to the chassis 14 needs to be changed, it can be dealt with by changing the structure of the chassis 14 in the same manner as described above.
- the installation density of the cold cathode tubes 18 is made denser toward the center of the screen, and the installation density of the cold cathode tubes 18 is made sparse toward the both ends of the screen, thereby improving the luminance on the center side of the screen. ing.
- the number of cold cathode tubes 18 held by the lamp clip 20 on the center side of the screen is set.
- the number of cold cathode tubes 18 held by the lamp clip 20 on the screen end side is reduced (for example, two), and the arrangement pitch between the cold cathode tubes 18 on the center side of the screen is increased.
- the mounting position of the cold cathode tubes 18 with respect to the lamp gripping portion 25 is changed so that the arrangement pitch between the cold cathode tubes 18 on the screen end side is relatively narrow. More specifically, the arrangement pitch between the CCFLs 18 closest to the screen edge is the size of six lamp receiving portions 32, but the distance between the CCFLs 18 increases from that point toward the center of the screen.
- the arrangement pitch gradually decreases, and the arrangement pitch between the cold cathode tubes 18 closest to the center of the screen is the size of two lamp receiving portions 32.
- the diameter of the cold cathode tube 18 used in the backlight device 12 may be changed.
- the cold cathode tube 18 ' having a larger diameter than those in FIGS. 3 and 4 is used
- the cold cathode tube 18' is attached between the arm portions 30 and 31, as shown in FIG.
- the arm portion 30 is in a slightly opened state
- the cold cathode tube 18 ′ is well held by fitting the cold cathode tube 18 ′ into the upper and lower lamp receiving portions 32.
- the lamp gripping portion is optical as in the prior art.
- the elasticity of the arm parts 30 and 31 is low. Accordingly, even when a somewhat thick cold cathode tube 18 'is attached, the restoring force of the elastically deformed arm portion 30 is relatively small. Therefore, even if the arm portion 30 interferes with the cold cathode tube 18' during attachment / detachment, the cold cathode tube 18 ' It is difficult to cause damage such as cracking.
- illustration is abbreviate
- the lamp clip 20 holds at least one of the plurality of cold cathode tubes 18 arranged in parallel, and extends along the parallel direction of the cold cathode tubes 18.
- an opening 33 that allows the cold cathode tube 18 to be attached and detached is provided between the tip portions thereof, and a pair of arm portions 30 and 31 capable of sandwiching the cold cathode tube 18 are provided, and the cold cathodes in the pair of arm portions 30 and 31 are provided.
- a plurality of lamp receiving portions 32 for receiving the cold cathode tubes 18 are arranged side by side along the parallel direction on at least one of the surfaces facing the tubes 18.
- the cold cathode tube 18 when the cold cathode tube 18 is mounted through the opening 33 between the tip portions of the arm portions 30 and 31, the cold cathode tube 18 is sandwiched between the arm portions 30 and 31. At this time, the cold cathode tube 18 can be selectively received by any one of the plurality of lamp receiving portions 32 arranged side by side on the surface of the arm portions 30 and 31 facing the cold cathode tube 18.
- the degree of freedom of the mounting position of the cold cathode tubes 18 in the parallel direction of the tubes 18 is high. Thereby, various arrangement patterns of the cold cathode tubes 18 can be dealt with. Accordingly, the types of lamp clips 20 can be reduced.
- the lamp gripping portion is of a type that opens toward the optical member side (vertically) as in the prior art, and a plurality of lamp gripping portions are arranged side by side on the main body portion, adjacent lamp gripping portions Since it is necessary to secure a bending space that allows elastic deformation of each arm portion in between, the interval between the positions where the cold-cathode tubes can be attached is likely to increase. Also, if a cold cathode tube is attached to the wrong lamp grip, it is necessary to remove the cold cathode tube from the lamp grip and then attach the cold cathode tube to the correct lamp grip again. However, the load on the cold-cathode tube accompanying attachment and detachment becomes large.
- the lamp gripping portion 25 is opened in the parallel direction of the cold cathode tubes 18 (laterally) so that the cold cathode tubes 18 are attached along the same direction, and then the arm portion 30. , 31, a plurality of lamp receiving portions 32 are arranged side by side, so that the interval between the lamp receiving portions 32, that is, the interval at which the cold cathode tube 18 can be attached can be made smaller than before. Thereby, it is possible to cope with various arrangement pitches between the cold cathode fluorescent lamps 18 and to increase the degree of design freedom.
- the cold cathode tube 18 when the cold cathode tube 18 is put in the wrong lamp receiving portion 32, the cold cathode tube 18 is moved to the correct lamp receiving portion 32 while the cold cathode tube 18 is arranged in the space between the both arm portions 30 and 31. Therefore, the workability is superior to that of the prior art, and the load on the cold cathode tube 18 due to the attachment / detachment is small, so that damage or the like hardly occurs.
- the lamp receiving portion 32 is formed so that adjacent ones are connected. In this way, since the interval between the lamp receiving portions 32 can be reduced to 0, the mounting position of the cold cathode tube 18 can be set finely, and the degree of freedom of the mounting position of the cold cathode tube 18 can be further increased. it can.
- the interval between the lamp receivers 32 is smaller than the minimum value of the interval between the cold cathode tubes 18 that can be set. In this way, the mounting position of the cold cathode tube 18 can be set more finely.
- the lamp receiving portion 32 is formed by denting the facing surfaces of the arm portions 30 and 31 facing the cold cathode tube 18. In this way, the distance between the arm portions 30 and 31 can be reduced compared to the case where the lamp receiving portion is formed by projecting the surface of the arm portion facing the cold cathode tube, and the arm portion is small. It is suitable for conversion.
- the lamp receiving portion 32 is formed in a substantially arc shape along the outer peripheral surface of the cold cathode tube 18. In this way, the cold cathode tube 18 can be properly supported.
- the lamp receiving portion 32 is provided on both of the pair of arm portions 30 and 31. In this way, since the lamp receiving portions 32 are formed on both the arm portions 30 and 31 that sandwich the cold cathode tube 18, the holding function for the cold cathode tube 18 can be improved.
- a plurality of cold cathode tubes 18 are attached between the pair of arm portions 30 and 31, and the lamp receiving portions 32 are provided more than the number of cold cathode tubes 18 to be attached. If it does in this way, it will become suitable for what attaches a plurality of cold-cathode tubes 18 between both arm parts 30 and 31.
- a support pin 26 capable of supporting the optical member 16 disposed in a face-to-face manner with respect to the cold cathode tube 18 is provided, and a pair of arm portions 30 and 31 are formed continuously to the support pin 26. In this way, since both arm portions 30 and 31 are connected to the support pin 26 having a support function for the optical member 16, the structure can be simplified.
- the surfaces of the arm portions 30 and 31 opposite to the cold cathode tube 18 side are formed in a mountain shape. If it does in this way, it will become possible to reflect the light emitted from the cold cathode tube 18 efficiently by the surface formed in the mountain shape in the arm parts 30 and 31.
- the main-body part 24 which makes the substantially plate shape along the axial direction and parallel direction of the cold cathode tube 18, and a pair of arm parts 30 and 31 are the range of the main-body part 24 about an axial direction and a parallel direction. It is formed to be placed inside. If it does in this way, both arm parts 30 and 31 will be protected by the main-body part 24, and it will become difficult to interfere with both arm parts 30 and 31 by other components.
- the main-body part 24 which makes the substantially plate shape along the axial direction and parallel direction of the cold-cathode tube 18, and what adjoins the main-body part 24 among a pair of arm parts 30 and 31 in the main-body part 24. It is formed continuously. In this way, the strength of the arm portions 30 and 31 connected to the main body portion 24 can be improved.
- pair of arm portions 30 and 31 are integrally formed. In this way, it is possible to manufacture at a lower cost compared to the case where both arm portions are separate parts.
- the backlight device 12 includes a lamp clip 20, a cold cathode tube 18 held by the lamp clip 20, and a chassis 14 that houses the cold cathode tube 18 and to which the lamp clip 20 is attached.
- a plurality of lamp clips 20 are attached to the chassis 14, and each opening 33 is arranged so as to face the center side of the chassis 14.
- the central side of the chassis 14 has fewer structures that can obstruct the attachment / detachment of the cold-cathode tube 18 with respect to the lamp clip 20 as compared with the side plate of the chassis 14 rising on the end side. Therefore, the cold cathode tube 18 is excellent in attaching / detaching workability.
- the dimensions of the lamp receiving portion 32-A in the parallel direction of the cold cathode tubes 18 are smaller than the diameter of the cold cathode tubes 18 as shown in FIG. Therefore, when the cold cathode tube 18 is attached, a part of the cold cathode tube 18 protrudes to the adjacent lamp receiving portion 32-A side. Further, when the cold cathode tubes 18 are attached to the lamp gripping portion 25-A so as to have the smallest arrangement pitch in design, one lamp receiving portion 32-A is opened between the cold cathode tubes 18.
- the distance between the cold cathode tubes 18 at that time is the amount of cooling in the lamp receiving portion 32-A by the amount that protrudes from the lamp receiving portion 32-A where each cold cathode tube 18 becomes empty. It is smaller than the dimension of the cathode tube 18 in the parallel direction. However, since the interval between the lamp receiving portions 32-A is 0, the minimum value of the arrangement pitch between the cold cathode tubes 18 is smaller than the interval between the lamp receiving portions 32-A. As described above, by setting the dimension in the lamp receiving portion 32-A in the parallel direction of the cold cathode tubes 18 as small as possible, the mounting position of the cold cathode tubes 18 can be designed in detail.
- the dimension in the parallel direction of the lamp receiving portion 32 -A is smaller than the diameter dimension of the cold cathode tube 18. In this way, the mounting position of the cold cathode tube 18 can be set more finely.
- Embodiment 3 of the present invention will be described with reference to FIG.
- an arrangement of the lamp receiving portion 32-B is changed.
- the same reference numerals are used for the parts changed from the first embodiment and the suffix -B is added at the end thereof, and redundant description of the structure, operation, and effect is omitted. .
- the lamp receiving portions 32-B are intermittently formed side by side without being directly connected to each other on the inner surfaces of both the arm portions 30-B and 31-B. Specifically, a horizontal surface 35 that is a part of the inner surfaces of the arm portions 30-B and 31-B is interposed between the adjacent lamp receiving portions 32-B, and the end portions of the lamp receiving portions 32-B are mutually connected. Is set so as not to continue. That is, an interval corresponding to the dimension in the Y-axis direction (parallel direction of the cold cathode tubes 18) in the horizontal plane 35 is provided between the adjacent lamp receiving portions 32-B.
- the cold cathode tube 18 protrudes from the lamp receiving portion 32-B to a predetermined dimension and on the horizontal plane 35 side. It is smaller than half of the dimension in the Y-axis direction. Therefore, the cold cathode tube 18 is attached in a state where the cold cathode tube 18 does not protrude to the adjacent lamp receiving portion 32-B side and there is no empty lamp receiving portion 32-B between the cold cathode tubes 18. It is possible. From the above, it can be said that the interval between the adjacent lamp receiving portions 32-B is smaller than the minimum value of the arrangement pitch between the cold cathode tubes 18 that can be set. Even if the lamp receiving portion 32-B is configured as described above, the mounting position of the cold cathode tubes 18 can be freely selected, and therefore it is possible to easily cope with various arrangement patterns of the cold cathode tubes 18. It has become.
- FIG. 4 A fourth embodiment of the present invention will be described with reference to FIG.
- the mounting posture of the lamp clip 20-C with respect to the chassis 14 is changed.
- the same reference numerals are used for the parts changed from the first embodiment and the suffix -C is added to the end thereof, and redundant description of the structure, operation, and effect is omitted. .
- the lamp clips 20-C located on the upper side shown in FIG. 16 with respect to the reference line L in the chassis 14 are both arm portions in the lamp gripping portion 25-C as shown in FIG.
- the mounting posture is such that 30-C and 31-C open toward the side opposite to the reference line L side, and the support pin 26-C approaches the reference line L side.
- the lamp clip 20-C located below the reference line L shown in FIG. The mounting posture is as follows. That is, it can be said that the lamp clips 20-C are arranged symmetrically with respect to the reference line L in a state where the lamp gripping portions 25-C are all opened outward. Accordingly, when the cold cathode tube 18 is attached, the cold cathode tube 18 may be attached to the lamp gripping portion 25-C while being inserted into the chassis 14 from the side opposite to the reference line L side with respect to the lamp clip 20-C.
- Embodiment 5 of the present invention will be described with reference to FIG.
- the mounting posture of the lamp clip 20-D with respect to the chassis 14-D is further changed.
- the same parts as those in the first embodiment are denoted by the same reference numerals and suffixed with -D at the end thereof, and redundant description of the structure, operation, and effect is omitted. .
- both arm portions 30-D and 31-D in the lamp gripping portion 25-D are used as a reference.
- the mounting posture is such that it opens toward the line L side.
- both arms 30-D and 31-D open toward the opposite side to the reference line L side. It is a proper mounting posture. That is, in the lamp clip 20-D, the lamp gripping portion 25-D near the center of the screen is opened inward, and the lamp gripping portion 25-D near the screen end is opened outward.
- Embodiment 6 of the present invention will be described with reference to FIG.
- a lamp receiving portion 32-E is formed only on one arm portion 30-E.
- parts changed from the first embodiment are denoted by the same reference numerals and suffixed with the suffix -E, and redundant description of the structure, action, and effect is omitted. .
- the arm portion 30-E on the optical member 16 side has a plurality of lamp receiving portions 32-E arranged in parallel as shown in FIG.
- the arm portion 31-E on the chassis 14 side is not formed with the lamp receiving portion 32-E.
- the inner surface of the arm portion 31 -E on the chassis 14 side is faced substantially parallel along the axial direction and the parallel direction of the cold cathode tubes 18.
- a seventh embodiment of the present invention will be described with reference to FIG.
- the seventh embodiment shows a modification of the lamp receiving portion 32-F formed only on one arm portion 31-F.
- parts changed from those in the first embodiment are denoted by the same reference numerals and suffixed with -F, and redundant description of the structure, action, and effect is omitted. .
- the arm portion 31-F on the chassis 14 (main body portion 24-F) side has a plurality of lamp receiving portions 32-F arranged in parallel as shown in FIG.
- the lamp receiving portion 32-F is not formed on the arm portion 30-F on the optical member 16 side.
- the inner surface of the arm portion 30 -F on the optical member 16 side faces a substantially parallel surface along the axial direction and the parallel direction of the cold cathode tubes 18.
- the lamp gripping portion 25-G is independent from the support pin 26-G.
- the same reference numerals are used for the parts changed from the first embodiment and the suffix -G is added to the end thereof, and redundant description of the structure, operation, and effect is omitted. .
- the lamp gripping portion 25-G includes a pair of arm portions 30-G and 31-G and a support portion 36 that connects the base end portions of both arm portions 30-G and 31-G. It is configured.
- the support portion 36 is connected to both the arm portions 30-G and 31-G and also to the main body portion 24-G, thereby supporting the arm portion 30-G on the optical member 16 side in an elastically deformable state.
- Both arm portions 30-G and 31-G are separated from the support pin 26-G, and are connected to the main body portion 24-G without the support pin 26-G.
- a ninth embodiment of the present invention will be described with reference to FIG.
- a configuration in which the number of lamp gripping portions 25-H installed in the lamp clip 20-H is changed is shown.
- parts changed from those in the first embodiment are denoted by the same reference numerals and suffixed with the suffix -H, and redundant description of the structure, operation, and effect is omitted. .
- the lamp clip 20-H is formed with a pair of lamp gripping portions 25-H as shown in FIG. That is, in the lamp clip 20-H, the support pin 26-H is installed at a substantially central position in the long side direction of the main body portion 24-H, and a pair of lamp grips are held between the support pins 26-H. A portion 25-H is provided. It can be said that the two lamp gripping portions 25-H are arranged side by side in the parallel direction of the cold cathode tubes 18 via the support pins 26-H.
- the lamp gripping portion 25-H includes a pair of arm portions 30-H and 31-H extending along the parallel direction of the cold cathode tubes 18, and the base end portions of the arm portions 30-H and 31-H are supported respectively.
- lamp receiving portions 32-H are arranged side by side along the parallel direction of the cold cathode tubes 18 on the inner surfaces of the arm portions 30-H and 31-H.
- the cold cathode tubes 18 can be selectively attached to these lamp receiving portions 32-H.
- a tenth embodiment of the present invention will be described with reference to FIG.
- an inclined surface 34-I in the arm portion 30-I on the optical member 16 side is changed.
- parts changed from those in the first embodiment are denoted by the same reference numerals and suffixed with the suffix -I, and redundant description of the structure, action, and effects is omitted. .
- the inclined surface 34-I formed on the surface on the optical member 16 side in the arm portion 30-I on the optical member 16 side is extended in the arm portion 30-I (parallel to the cold cathode tubes 18).
- the center position of the direction) is the apex, and a downward slope is formed from there toward both ends in the same direction.
- FIGS. 11 An eleventh embodiment of the present invention will be described with reference to FIGS.
- a structure in which the attachment structure of the lamp clip 20-J to the chassis 14-J is changed is shown.
- parts changed from the first embodiment are denoted by the same reference numerals and suffixed with a suffix -J, and redundant description of the structure, action, and effect is omitted. .
- the mounting structure of the lamp clip 20-J a type of mounting by sliding the lamp clip 20-J with respect to the chassis 14-J is adopted.
- the pair of attachment portions 37 and 38 provided on the back surface of the main body portion 24-J are both hooks along the back surface (plate surface) of the main body portion 24-J. It has a shape.
- the left one shown in FIG. 23 is referred to as a first attachment portion 37
- the right attachment in the drawing is referred to as a second attachment portion 38.
- the first attachment portion 37 and the second attachment portion 38 are formed by base portions 37a and 38a projecting from the back surface of the main body portion 24-J, and bent at a substantially right angle from the tips of the base portions 37a and 38a.
- Cantilevered protrusions 37b and 38b that protrude (extend) along the direction are provided, and are substantially L-shaped when viewed from the front.
- the bases 37a and 38a have a substantially prismatic shape with a rectangular cross section, and the long side direction thereof coincides with the short side direction in the main body part 24-J.
- the protrusions 37b and 38b are substantially parallel to the plate surface of the main body portion 24-J, and are in contact with and separated from the main body portion 24-J with the base end portion connected to the base portions 37a and 38a as a fulcrum (Z-axis). Direction).
- the projecting direction of the projecting portions 37b, 38b from the base portions 37a, 38a coincides with the sliding direction when the lamp clip 20-J is attached to the chassis 14-J.
- the bases 37a and 38a and the protrusions 37b and 38b have substantially the same dimension in the short side direction of the main body part 24-J, and the size thereof is smaller than the short side dimension of the main body part 24-J.
- the first mounting portion 37 is provided with a locking projection 39 that protrudes from the tip of the projection 37b toward the main body portion 24-J.
- a taper surface is formed on a surface of the locking projection 39 facing the main body portion 24-J.
- the surface of the locking projection 39 that faces the base portion 37a is substantially parallel and upright with the outer surface of the base portion 37a, and is substantially straight along the direction orthogonal to the sliding direction of the lamp clip 20-J with respect to the chassis 14-J. This is a locking surface for the locking hole 43 of the chassis 14-J.
- a guide portion 40 capable of guiding the attachment operation to the chassis 14-J is provided at the tip of the protrusion 38b.
- the guide portion 40 is formed with a gradient that moves away from the main body portion 24-J as it goes to the distal end side.
- the protrusion 38b of the second mounting portion 38 does not protrude outward from the end portion in the long side direction of the main body portion 24-J, and is on the back side of the main body portion 24-J in a plan view. It is supposed to hide.
- the bottom plate 14a-J of the chassis 14-J has a pair of mounting holes 41, 42 corresponding to both mounting portions 37, 38 and a locking hole 43 corresponding to the locking projection 39 of the first mounting portion 37. Each opening is provided.
- the left side shown in FIG. 23 is referred to as a first mounting hole 41
- the right side of FIG. 23 is referred to as a second mounting hole 42.
- the first mounting hole 41 and the second mounting hole 42 are formed in a rectangular shape in plan view in accordance with the first mounting portion 37 and the second mounting portion 38, and the long side dimension and the short side dimension thereof are the main body part. It is smaller than 24-J. Therefore, when the lamp clip 20-J is attached, the first attachment hole 41 and the second attachment hole 42 are closed by the main body portion 24-J.
- the locking hole 43 is disposed in the bottom plate 14a-J of the chassis 14-J between the mounting holes 41 and 42 and near the first mounting hole 41.
- the locking projection 43 of the first mounting portion 37 enters the locking hole 43 and can be locked to the edge thereof.
- the locking hole 43 is also formed to be smaller in size than the main body portion 24-J in the same manner as the first attachment hole 40 and the second attachment hole 42, and is closed by the main body portion 24-J in the attached state. Is done.
- the reflective sheet 15-J is provided with a pair of insertion holes 44 and 45 corresponding to the mounting holes 41 and 42, respectively.
- the first insertion hole 44 corresponding to the first mounting hole 41 is formed in a size that can collectively surround the first mounting hole 41 and the locking hole 43.
- the second insertion hole 45 is set to be larger than the second attachment hole 42.
- the lamp clip 20-J is slid along the long side direction of the main body portion 24-J, that is, the parallel direction of the cold cathode tubes 18 (Y-axis direction). Then, the protrusion 37 b of the first mounting portion 37 is elastically deformed once by the locking protrusion 39 riding on the back side of the edge of the first mounting hole 41. In this process, the guide portion 40 formed at the distal end portion of the second attachment portion 38 is in sliding contact with the edge portion of the second attachment hole 41, so that a smooth sliding operation is achieved. Then, when the lamp clip 20-J slides a predetermined distance, as shown in FIG. 23, the locking projection 39 enters the locking hole 43 and the projection 37b of the first mounting portion 37 is restored.
- the arrangement pattern of the cold cathode tubes can be changed to various forms, and even in such a case, the lamp receiving portion to which the cold cathode tube is attached is selected. By doing so, it is possible to easily cope without changing the structure of the lamp clip.
- the dimensions of the cold-cathode tubes in the lamp receiving portion can be appropriately changed.
- the dimension in the lamp receiving portion may be the same as the diameter of the cold cathode tube.
- the interval between the lamp receivers can be changed as appropriate.
- the interval between the lamp receivers may be the same as or larger than the minimum arrangement pitch between the cold cathode tubes that can be set.
- the lamp receiving portion has an arc shape in cross section, but the shape of the lamp receiving portion can be changed as appropriate in addition to the arc shape.
- the lamp receivers are connected by a horizontal plane, but the lamp receivers are connected by a surface having a shape other than the horizontal plane.
- the number of lamp receivers formed on the arm can be appropriately changed.
- the chassis side arm portion is connected to the main body portion over the entire area.
- the chassis side arm portion is partially connected to the main body portion.
- both the arm portions may be elastically deformable by forming the arm portion on the chassis side so that only the base end portion is continuous with the main body portion.
- an inclined surface may be provided on a surface of the arm portion on the chassis side facing the chassis (main body portion) side as in the arm portion facing the optical member side.
- the arm portion is directly or indirectly connected to the main body portion.
- the arm portion is formed as a separate body from the main body portion and the like, and is integrated by assembling. What was made to become is included in this invention.
- the arm portion does not protrude outward from the outer peripheral end of the main body portion. However, the arm portion protrudes outward from the outer peripheral end of the main body portion. It is included in the present invention.
- the tilted surface is formed on the arm portion on the optical member side, but the tilted surface is omitted in the present invention.
- the lamp clip surface color is exemplified as white.
- the lamp clip surface color may be milky white, for example.
- the entire lamp clip may be formed of a transparent resin material.
- the number of cold cathode tubes held by both arms can be changed as appropriate.
- the present invention also includes one in which only one cold cathode tube is held. included.
- the lamp clip provided with one support pin is exemplified, but the number of support pins and the installation position can be appropriately changed. Moreover, what omitted the support pin is also included in the present invention.
- the lamp clip provided with a pair of attachment portions is illustrated, but the number of attachment portions and the installation position can be changed as appropriate.
- the attaching part is also contained in this invention. In that case, what is necessary is just to fix a lamp clip with respect to a chassis by another fixing means, such as an adhesive agent.
- the lamp clip provided with the main body is illustrated, but the present invention includes a lamp clip that omits the main body.
- the chassis is made of metal sheet metal, but may be made of resin molding.
- a TFT is used as a switching element of a liquid crystal display device.
- the present invention can also be applied to a liquid crystal display device using a switching element other than TFT (for example, a thin film diode (TFD)).
- a switching element other than TFT for example, a thin film diode (TFD)
- the present invention can also be applied to a liquid crystal display device for monochrome display.
- the liquid crystal display device using the liquid crystal panel as the display panel has been exemplified.
- the present invention can also be applied to display devices using other types of display panels.
- the television receiver provided with the tuner is exemplified, but the present invention is also applicable to a display device that does not include the tuner.
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Abstract
Description
上記した構成のランプクリップにおける各ランプ把持部の設置位置は、固定されており、それら各ランプ把持部間の間隔は、シャーシ内に並列配置される各冷陰極管間のピッチと一致した大きさとなっている。つまり、ランプクリップは、冷陰極管の配列パターンに対応した専用品となっている。
本発明の光源保持具は、並列配置される複数の線状光源の少なくとも1本を保持するものであって、前記線状光源の並列方向に沿って延びるとともにその先端部間に前記線状光源の着脱を許容する開口部を有し、前記線状光源を挟持可能な一対のアーム部を備え、前記一対のアーム部における前記線状光源との対向面の少なくともいずれか一方には、前記線状光源を受ける光源受け部が複数、前記並列方向に沿って並んで配置されている。
(1)前記光源受け部は、隣り合うもの同士が連なるよう形成されている構成とする。このようにすれば、光源受け部間の間隔を0にできるので、線状光源の取付位置をきめ細かく設定することができ、線状光源の取付位置の自由度を一層高くすることができる。
本発明によれば、光源保持具の品種を削減することができる。
本発明の実施形態1を図1から図13によって説明する。本実施形態では、液晶パネル11を備える液晶表示装置10について例示する。なお、以下では、上下方向については、図2や図3を基準とするとともに、同図上側を表側、同図下側を裏側として説明する。また、各図面の一部にはX軸、Y軸及びZ軸を示しており、各軸方向が各図面で示した方向となるように描かれている。
本発明の実施形態2を図14によって説明する。この実施形態2では、ランプ受け部32‐Aを変更したものを示す。なお、この実施形態2では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Aを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態3を図15によって説明する。この実施形態3では、ランプ受け部32‐Bの配列を変更したものを示す。なお、この実施形態3では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Bを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態4を図16によって説明する。この実施形態4では、シャーシ14に対するランプクリップ20‐Cの取付姿勢を変更したものを示す。なお、この実施形態4では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Cを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態5を図17によって説明する。この実施形態5では、シャーシ14‐Dに対するランプクリップ20‐Dの取付姿勢をさらに変更したものを示す。なお、この実施形態5では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Dを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態6を図18によって説明する。この実施形態6では、片方のアーム部30‐Eにのみランプ受け部32‐Eを形成したものを示す。なお、この実施形態6では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Eを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態7を図19によって説明する。この実施形態7では、片方のアーム部31‐Fにのみランプ受け部32‐Fを形成したものの変形例を示す。なお、この実施形態7では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Fを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態8を図20によって説明する。この実施形態8では、ランプ把持部25‐Gを支持ピン26‐Gから独立させたものを示す。なお、この実施形態8では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Gを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態9を図21によって説明する。この実施形態9では、ランプクリップ20‐Hにおけるランプ把持部25‐Hの設置数を変更したものを示す。なお、この実施形態9では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Hを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態10を図22によって説明する。この実施形態10では、光学部材16側のアーム部30‐Iにおける傾斜面34‐Iを変更したものを示す。なお、この実施形態10では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Iを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明の実施形態11を図23から図25によって説明する。この実施形態11では、シャーシ14‐Jに対するランプクリップ20‐Jの取付構造を変更したものを示す。なお、この実施形態11では、上記した実施形態1から変更した部位には、同一の符号を用いるとともにその末尾に添え字‐Jを付すものとし、構造、作用及び効果について重複する説明は省略する。
本発明は上記記述及び図面によって説明した実施形態に限定されるものではなく、例えば次のような実施形態も本発明の技術的範囲に含まれる。
Claims (18)
- 並列配置される複数の線状光源の少なくとも1本を保持するものであって、
前記線状光源の並列方向に沿って延びるとともにその先端部間に前記線状光源の着脱を許容する開口部を有し、前記線状光源を挟持可能な一対のアーム部を備え、前記一対のアーム部における前記線状光源との対向面の少なくともいずれか一方には、前記線状光源を受ける光源受け部が複数、前記並列方向に沿って並んで配置されている光源保持具。 - 前記光源受け部は、隣り合うもの同士が連なるよう形成されている請求の範囲第1項記載の光源保持具。
- 前記光源受け部における前記並列方向の寸法は、前記線状光源の径寸法よりも小さくなっている請求の範囲第1項または請求の範囲第2項記載の光源保持具。
- 前記光源受け部間の間隔は、設定され得る前記線状光源間の間隔の最小値よりも小さくなっている請求の範囲第1項から請求の範囲第3項のいずれか1項に記載の光源保持具。
- 前記光源受け部は、前記アーム部における前記線状光源との対向面を凹ませることで形成されている請求の範囲第1項から請求の範囲第4項のいずれか1項に記載の光源保持具。
- 前記光源受け部は、前記線状光源の外周面に沿うよう略円弧状に形成されている請求の範囲第1項から請求の範囲第5項のいずれか1項に記載の光源保持具。
- 前記光源受け部は、前記一対のアーム部の双方に設けられている請求の範囲第1項から請求の範囲第6項のいずれか1項に記載の光源保持具。
- 前記一対のアーム部間には、前記線状光源が複数取り付けられるようになっており、前記光源受け部は、取り付けられる前記線状光源の数よりも多く設置されている請求の範囲第1項から請求の範囲第7項のいずれか1項に記載の光源保持具。
- 前記線状光源に対して対向状に配される光学部材を支持可能な支持部が設けられており、前記一対のアーム部が前記支持部に連なって形成されている請求の範囲第1項から請求の範囲第8項のいずれか1項に記載の光源保持具。
- 前記アーム部における前記線状光源側とは反対側の面は、山形に形成されている請求の範囲第1項から請求の範囲第9項のいずれか1項に記載の光源保持具。
- 前記線状光源の軸方向及び前記並列方向に沿った略板状をなす本体部を有しており、前記一対のアーム部は、前記軸方向及び前記並列方向について、前記本体部の範囲内に配されるよう形成されている請求の範囲第1項から請求の範囲第10項のいずれか1項に記載の光源保持具。
- 前記線状光源の軸方向及び前記並列方向に沿った略板状をなす本体部を有しており、前記一対のアーム部のうち前記本体部に隣接するものが前記本体部に連なって形成されている請求の範囲第1項から請求の範囲第11項のいずれか1項に記載の光源保持具。
- 前記一対のアーム部は、一体に形成されている請求の範囲第1項から請求の範囲第12項のいずれか1項に記載の光源保持具。
- 請求の範囲第1項から請求の範囲第13項のいずれか1項に記載の光源保持具と、前記光源保持具によって保持される線状光源と、前記線状光源を収容するとともに前記光源保持具が取り付けられるシャーシとを備える照明装置。
- 前記光源保持具は、前記シャーシに対して複数取り付けられるとともに、前記各開口部が前記シャーシの中央側を向くよう配されている請求の範囲第14項記載の照明装置。
- 請求の範囲第14項または請求の範囲第15項に記載の照明装置と、前記照明装置からの光を利用して表示を行う表示パネルとを備える表示装置。
- 前記表示パネルは、一対の基板間に液晶を封入してなる液晶パネルとされる請求の範囲第16項記載の表示装置。
- 請求の範囲第16項または請求の範囲第17項に記載された表示装置を備えるテレビ受信装置。
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JP2013143244A (ja) * | 2012-01-10 | 2013-07-22 | Hitachi Appliances Inc | 照明器具および照明装置 |
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WO2011062023A1 (ja) * | 2009-11-19 | 2011-05-26 | シャープ株式会社 | 照明装置、表示装置、及びテレビ受信装置 |
US10253956B2 (en) | 2015-08-26 | 2019-04-09 | Abl Ip Holding Llc | LED luminaire with mounting structure for LED circuit board |
US10190755B2 (en) | 2016-11-15 | 2019-01-29 | Abl Ip Holding Llc | LED board retention |
US10251279B1 (en) | 2018-01-04 | 2019-04-02 | Abl Ip Holding Llc | Printed circuit board mounting with tabs |
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WO2008096482A1 (ja) * | 2007-02-06 | 2008-08-14 | Sharp Kabushiki Kaisha | 放電管、照明装置、表示装置、及びテレビ受信装置 |
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JP2005251479A (ja) * | 2004-03-02 | 2005-09-15 | Tama Fine Opto Co Ltd | バックライト装置および液晶表示装置並びに光源保持部材 |
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WO2011129146A1 (ja) * | 2010-04-14 | 2011-10-20 | シャープ株式会社 | 照明装置、表示装置、及びテレビ受信装置 |
JP2013143244A (ja) * | 2012-01-10 | 2013-07-22 | Hitachi Appliances Inc | 照明器具および照明装置 |
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CN102057216B (zh) | 2013-03-27 |
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