1. Field of the Invention
The present invention relates to a display unit that includes a liquid crystal display panel and a lighting device that causes a light to be incident on a side surface of the liquid crystal display panel.
2. Description of the Related Art
A liquid crystal display panel is not a self-luminous display unit. In a dark environment in which a sufficient external light cannot be secured, therefore, a visibility of the liquid crystal display panel should be improved using an auxiliary light source.
As a first example of a display unit that employs such an auxiliary light source, a display unit constituted so that a light guide plate is superposed on an upper portion of the liquid display panel, a linear lighting device is arranged on a side surface of the light guide plate, a light from the lighting device is caused to be incident on the side surface of the light guide plate, and that the light is thereby irradiated from this light guide plate onto an entire surface of the liquid crystal display panel is described in Japanese Patent Application Laid-Open No. 2001-356323. The light guide plate and the liquid crystal display panel are both fixed to a common fixing frame.
As a second example of the display unit that employs the auxiliary light source, a display unit constituted so that a lighting device (a light source) is arranged on a side surface of a liquid crystal display panel (a liquid crystal cell), and that a light from the lighting device is caused to be incident on the liquid crystal cell is described in Japanese Patent Application Laid-Open No. 2001-33766. The display unit in the second example is characterized in that a structure of the display unit can be simplified and a size of the display unit can be reduced since it is unnecessary to arrange a light guide plate above the liquid crystal display. In the second example, it is necessary to ensure that the light from the lighting device is accurately incident on the liquid crystal display panel. To do so, a positional relationship between the lighting device and the liquid crystal display panel should be accurately held. However, the above Japanese patent document fails to describe a structure intended to consider that respect.
According to a first aspect of the present invention, there is provided a display unit comprising: a liquid crystal display panel; a lighting device arranged to face one side surface of the liquid crystal display panel, and causing a light to be incident on the side surface of the liquid crystal display panel; and a single support frame that supports the liquid crystal display panel and the lighting device.
The support frame may comprises a flat portion that supports the liquid crystal display panel; and a holding portion that is formed by bending one side edge of the flat portion, and that supports the lighting device. The lighting device comprises a linear light guide member; and a point light source arranged on one end surface of the light guide member. At least the linear light guide member is arranged in the holding portion.
According to a second aspect of the present invention, there is provided a display unit comprising: a circuit board; a liquid crystal display panel arranged to be superposed on the circuit board; a lighting device that is arranged to face one side surface of the liquid crystal display panel, and that causes a light to be incident on the side surface of the liquid crystal display panel; and a single shield member that is arranged between the circuit board and the liquid crystal display panel, and that shields both of or one of an electricity and a magnetism, wherein the shield member supports both the liquid crystal display panel and the lighting device.
The shield member may comprise a flat portion that supports the liquid crystal display panel; and a holding portion that is formed by bending one side edge of the flat portion, and that supports the lighting device. The lighting device comprises a linear light guide member, and a point light source arranged on one end surface of the light guide member, and at least the linear light guide member is arranged in the holding portion of the shield member.
As stated above, according to the present invention, the liquid crystal display panel and the lighting device are supported by one frame, and a light emitted from this lighting device is incident on the side surface of the liquid crystal display panel. Therefore, the position of the lighting device relative to the liquid crystal display panel is stabilized, and it is possible to cause the light to be stably incident on the side surface of the liquid crystal display panel from a correct position in a correct direction. As the frame that supports the liquid crystal display panel and the lighting device, a single shield member that is arranged between the circuit board and the liquid crystal display panel, and that shields both of or one of an electricity and a magnetism can be used. In addition, if the lighting device is composed by the linear light guide member and the point light source, the linear light guide member (and the reflecting member) can be stored in a portion formed by folding one side of the frame (shield member).
The above and other objects and features of the present invention will be readily apparent from the following description of embodiments with reference to the accompanying drawings, in which
The display unit 1 includes a lithium battery (secondary battery) and a small secondary coil, both of which will be described later, in the module 2. As shown in
A thin conductive strip is embedded in each of the bands 4, thereby forming antennas 10. One end 11 of each antenna 10 is put on the first stepped portion 6 and exposed into the bezel 3. The end 11 of the antenna 10 is connected to an antenna terminal (a surface pattern on the circuit board) exposed toward the module 2 when the module 2 is attached to the bezel 3. The other ends of the respective antennas 10 are connected to each other when the bands 4 are wound around a wrist and the both ends are connected to each other. A loop is thus formed and the loop functions as the antenna.
As shown in
As shown in
Structures of main elements that constitute the module 2 will be described with reference to
[Base Frame: (
The base frame 19 is formed by an ABS resin having a high strength and a high forming accuracy, and includes a battery storage recess 25 that opens downward in a central portion of the base frame 19. A depth of the battery storage recess 25 is substantially equal to a thickness of the lithium: battery 22. The lithium battery 22 is fitted into this battery storage recess 25 from below. A bottom of the battery storage recess 25 is cut out so as to radiate a heat, reduce a weight, and to be used as a resonant space for a piezoelectric buzzer.
Support base portions 26a and 26b protrude outward of a left side and a right side of the base frame 19, respectively. An attachment base 27 for the secondary coil 23 protrudes outward of a front side of the base frame 19. The attachment base 27 for the secondary coil 23 is arranged not to be superposed on the battery storage recess 25 two-dimensionally.
The secondary coil 23 is attached to a lower surface of the attachment base 27. A positioning hook protrusion 28 and a pair of vertical pins 29a and 29b are formed on the lower surface of the attachment base 27. Firstly the case that stores the secondary coil 23 therein is provided so that two sides of the case butt on the vertical pins 29a and 29b respectively and one end of the case is engaged with the hook protrusion 28 to position the case in a vertical direction and a horizontal direction. Through these procedures, the case that stores therein the secondary coil 23 is positioned relative to the attachment base 27 in the vertical direction and the horizontal direction.
As stated, in the display unit, the secondary coil and the lithium battery (secondary cell) are arranged not to be superposed on each other two-dimensionally. Therefore, efficiency for coupling the secondary coil with the lithium battery by electromagnetic induction is improved without interference with each other.
The secondary coil 23 needs to be accurately positioned in the vertical direction and the horizontal direction so that the secondary coil 23 is electromagnetically coupled with the primary coil 9 in the cradle 8 (
A recess 30 to which a positioning protrusion 39 of a contact plate 37 (
A positioning protrusion 31 and a vertical pin 32 for positioning the circuit board 18 thus mounted protrude from an upper surface of the base frame 19. Further, notches 33 for exposing a contact surface provided on an edge of the circuit board 18 (or a pattern formed on the circuit board 18) are formed on the upper surface of the base frame 19.
[Circuit Board]
The circuit board 18 includes a printed circuit board, a CPU, a memory, parts responsible for input and output, and the like arranged on the printed circuit board, and a reception circuit for receiving a radio wave. The circuit board 18 is rectangularly flat, and includes flange portions 34a and 34b having shapes and sizes matched to the support base portions 26a and 26b of the base frame 19 on left and right sides of the circuit board 18, respectively. Meshed circuit patterns 36a and 36b are formed widely into sheets on these respective flange portions 34a and 34b. A liquid crystal display panel 53, to be described later, and the linear light guide member 20 are arranged to be superposed on each other in a central portion of the circuit board 18 except for the flange portions 34a and 34b. Further, three contact surfaces 35a, 35b, and 35c are formed on a front edge of the circuit board 18, and two contact surfaces 35d and 35e are formed on a rear edge of the circuit board 18. A grounding surface pattern portion of the circuit board 18 is formed into a mesh.
The three contact surfaces 35a, 35b, and 35c formed on the front edge of the circuit board 18 face contact pieces 38a, 38b, and 38c formed on the contact plate 37 (
[Intermediate Frame: (
The intermediate frame 17 is provided to form a gap between the circuit board 18 and the panel member 15, and to protect the parts protruding on the circuit board 18. The shield member 16 and the panel member 15 are superposed on the intermediate frame 17, and the fixing frame 14 is further covered on the panel member 15. At this time, spring hooks 40a, 40b, 40c and 40d provided on left and right sides of the fixing frame 14 are engaged with engagement protrusions 41a, 41b, 41c and 41d provided to slightly protrude in four corners of the base frame 19 (note, however, that the engagement protrusion 41d is invisible in
As shown in
[Shield Member: (
The shield member 16 is provided to protect a liquid crystal drive control portion 54 (
A holding portion 46 having a U-shaped cross section is formed on a right side of the shield member 16 by vertically raising a right side portion of the shield member 16 over its entire length and then bending the right side portion inward. On the other hand, protrusion pieces 48a and 48b inserted into the engagement holes 44a and 44b of the intermediate frame 17 protrude outward of a left side of the shield member 16. One engagement piece 49 is formed downward of a front side of the shield member 16. A pair of protrusions are formed to protrude outward and bend downward of a rear side of the shield member 16, and contact pieces 47a and 47b are formed on one side ends of parts bent downward of the paired protrusions, respectively. The contact pieces 47a and 47b are depressed by the buttons 12d and 12e shown in
Each of the contact pieces 47a and 47b and the engagement protrusion 49 exhibits a spring performance. When the shield member 16 is forced into the intermediate frame 17 from above, the front and rear sides of the intermediate frame 17 are put between the contact pieces 47a an 47b and the engagement protrusion 49. Therefore, the shield member 16 can be-stably held into the intermediate frame 17.
As shown in
The linear light guide member 20 is a transparent rectangular solid. The linear light guide member 20 is stored in the holding portion 46 while being put between parts of the reflecting member 21 bent to have a U-shaped cross section. Namely, the linear light guide member 20 and the reflecting member 21 between parts of which the member 20 is put are inserted into the holding portion 46 from a front end of the holding portion 46 (or from an end portion on a side on which the LED fixing piece 51 is formed), slidably moved in the holding portion 46, and positioned relative to the holding portion 46 while one end of the linear light guide member 20 and one end of the reflecting member 21 butt on the stopper 50.
Further, the shield member 16 includes a tongue piece 52 having a spring performance and bent downward so as to be grounded. A lower end of this tongue piece 52 is designed to come in contact with a grounding surface pattern portion of the circuit board 18 when the assembling of the module is completed.
[Panel Member: (
The panel member 15 is composed by the liquid crystal display panel 53 and the FPC 55 that includes the drive control portion 54 for the liquid crystal display panel 53. Each cell of the liquid crystal display panel 53 is not a square but normally a rectangle having left and right sides, which are long sides, and front and rear sides, which are short sides, as shown in
As shown in
By twisting the second branch portion 58b, the LED 57 is located on a front end of the right side of the liquid crystal display panel 53, that is, located on a front end of the shield member 16 (the holding portion 46). A light emitting surface of the LED 57 is directed rearward and in contact with the end of the linear light guide member 20 held in the holding portion 46 of the shield member 16.
Rear ends of the linear light guide member 20 and the reflecting member 21, attached into the holding portion 46 of the shield member 16, are stopped by the stopper 50 so as to prevent detachment, and front ends thereof are temporarily stopped by the LED fixing piece 51. A second stopper 61 (
[Formation of Module]The circuit board 18, the intermediate frame 17, the shield member 16, and the panel member 15 are sequentially stacked on the base frame 19 in this order. The fixing frame 14 is covered on the panel member 15, and the circuit board 18, the intermediate frame 17, the shield member 16, and the panel member 15 are fastened between the panel member 15 and the base frame 19, thereby forming the module 2.
To form this module 2, the linear light guide member 20 and the reflecting member 21 are incorporated into the holding portion 46 of the shield member 16 in advance. The panel member 15 is superposed on the shield member 16, the LED 57 is put on the front end of the holding portion 46, and the LED fixing piece 51 is crimped, thereby fixing the LED 57 into the holding portion 46.
The FPC 55 of the liquid crystal display panel 53 is folded so that the drive control portion 54 is located below the liquid crystal display panel 53. The connector portion 56 on the tip end of the FPC 55 is inserted downward from the central punched part of the shield member 16, thereby coupling the connector portion 56 with a connector of the circuit board 18.
When the panel member 15 is attached to the shield member 16, the right side of the panel member 15 is connected to one end surface of the linear light guide member 20 stored in the holding portion 46 of the shied member 16. As a result, the display portion of the panel member 15 receives a light from the LED 57 through the linear light guide member 20 and also receives a light (leakage light) reflected by the reflecting member 21. How the display portion of this panel member 15 is illuminated will now be described in detail with reference to
A substrate 71 of the panel member 15 is composed by a liquid crystal panel upper glass 73 and a liquid crystal panel lower glass 74. The upper glass 73 is arranged to be superposed on the lower glass 74 with a liquid crystal gap 72 put there between. A thin sheet light guide member 76 (prism sheet) is formed between a surface of the substrate 71 and an upper polarizer 75. A reflecting plate 78 is bonded to a rear surface of the substrate 71 through a lower polarizer 77. A light emitted from the LED 57 is incident on a side surface of the substrate 71 of the panel member 15 from the linear light guide member 20, guided from right to left of the panel member 15 shown in
As is obvious from
The completed module 2 is fitted into the bezel 3 integral with the bands 4. Reinforcing members 60a and 60b are fitted to the left and right support base portions 26a and 26b of the base frame 19 and fixed thereto by screws. At this time, the flange portions 34a and 34b of the circuit board 18 are located above the left and right support base portions 26a and 26b of the base frame 19. The meshed circuit patterns 36a and 36b formed on the flange portions 34a and 34b are connected to the antenna ends 11 of the bands 4, thereby connecting the antennas 10 to the circuit of the circuit board 18, respectively. The rear cover 5 is covered on the module 2 and fixed onto the module 2 by screws.
The rear cover 5 consists of the same synthetic resin as that for the bezel 3. As shown in
A space between the rear cover 6 and the lithium battery 22 as well as the bottom of the battery storage recess 25 forms the resonant space for the piezoelectric buzzer 61.
Finally, the rods of the buttons 12ato 12c (
As stated so far, the lighting device and the liquid crystal display panel are both attached to the shield member 16, and positioned accurately relative to the shield member 16. Therefore, the lighting device and the liquid crystal display panel can be easily assembled and the illumination can be efficiently utilized.
Since the lighting device is directly attached to one side of the liquid crystal display panel, there is no need to provide a light guide plate that ranges over the entire surface of the liquid crystal panel. The display unit can be thereby made thin.
Moreover, the lighting device is stored in the holding portion 46 formed as a part of the shield member 16. Since the lighting device is attached to such a relatively large member, the auxiliary light source can be easily formed. In addition, if the lighting device is constituted to include the linear light guide member 20 and the reflecting member 21, and the linear light guide member 20 and the reflecting member 21 are inserted into the holding portion 46, the members 20 and 21 are positioned by the stopper 50. Besides, since the LED fixing piece 51 is provided, the positioning and fixing of the LED 57 to the linear light guide member 20 can be easily made.
Number | Date | Country | Kind |
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355583/2003 | Oct 2003 | JP | national |
Number | Date | Country | |
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Parent | 10962465 | Oct 2004 | US |
Child | 11642909 | Dec 2006 | US |