JP2007206729A - Liquid crystal display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid crystal display device which attains high production yield by the reduction of work failures during assembling, and attains production cost reduction by reducing the number of components. <P>SOLUTION: A first frame 51 has grooves 12, 13, 14 arranged in a peripheral surface holding an optical sheet 200. Protrusions 101, 102, 103 in respective peripheral edge parts of an upper diffusion plate 1, a prism sheet 2, and a lower diffusion plate 3 are provided in relatively different positions. The protrusion 101 of the upper diffusion plate 1 is fitted to the groove 12, and the protrusion 102 of the prism sheet 2 is fitted to the groove 13, and the protrusion 103 of the lower diffusion plate 3 is fitted to the groove 14. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a structure of a liquid crystal display device, and more particularly to a structure of a transmissive / semi-transmissive liquid crystal display device having a back light source used in a data display device of an in-vehicle navigation system or a portable small television. is there.

  The structure of such a conventional liquid crystal display device will be described. FIG. 5 is a longitudinal sectional view of a conventional liquid crystal display device. FIG. 6 is an exploded perspective view showing an assembly structure of an optical sheet and a frame of a conventional liquid crystal display device. As shown in these drawings, in a conventional liquid crystal display device, a light source 7 is disposed on a side surface of a light guide plate 9 having a substantially wedge-shaped cross section. The light source 7 includes a rod-shaped lamp and a wiring portion that extends from both ends thereof and is focused on a connector.

  Further, a reflection sheet 10 that reflects light in a specific direction is provided so as to cover the light source 7 and the light guide plate 9 from the lower surface and the side surface, and further, heat generated from the light source 7 is diffused on the outer side. A heat radiating plate 11 for radiating heat is provided. An upper diffusion plate 1, a prism lens sheet 2, and a lower diffusion plate 3 are superimposed on the upper surface of the light guide plate 9. The thing of the above structure is hold | maintained so that it may pinch | interpose in the 1st frame 51 from the upper side, and the 2nd frame 52 from the lower side. Further, the liquid crystal display panel 4 is disposed on the upper side of the first frame 51, and is covered with a shield case 6 for the purpose of protection and electrical shielding. Further, a flexible substrate 8 for transmitting a liquid crystal display panel drive signal extends from a side portion of the liquid crystal display panel 4.

  By the way, generally, a combination of one or a plurality of sheet materials each having different optical characteristics, such as a diffusion plate and a prism lens sheet, is called an optical sheet. Here, a combination of the three sheet materials of the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 is referred to as an optical sheet 200. However, since the optical sheet 200 requires different optical characteristics depending on the specifications of the liquid crystal display device, the number of sheet materials such as a diffusing plate and a prism lens sheet constituting the optical sheet 200 and combinations thereof may be different. .

  Further, the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 are provided with protrusions 101, 102, and 103 at the peripheral portions, respectively, while the lower surface peripheral portion of the first frame 51 is Grooves 21 that fit into the protrusions 101, 102, and 103 are formed. Thereby, in the assembly process of the liquid crystal display device, the upper frame 1, the prism lens sheet 2, and the lower plate 3 constituting the optical sheet 200 are aligned with the first frame 51. Therefore, the protrusions 101, 102, 103 of the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 are provided at the same relative positions, and the protrusions 101, 102, 103 are assembled when the liquid crystal display device is assembled. Will overlap.

  Further, the optical sheet 200 used in the liquid crystal display device is determined by the specifications of the liquid crystal display device, and selectively combines the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 having different optical characteristics. It is configured. For this reason, since the thickness of the optical sheet 200 may differ depending on the specifications of the liquid crystal display device, the first frame 51 that holds the optical sheet 200 is made of a member having a different thickness for each specification of the liquid crystal display device. Used.

  However, in the configuration as described above, the protrusions 101, 102, and 103 of the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3, respectively, are provided at the same relative positions, and each of the first frame 51, because it is fitted with the groove 21 of the upper diffusion plate 1, the prism lens sheet 2 and the lower diffusion plate 3, it is easy to make a mistake in the operation and the order of fitting, and the manufacturing yield is reduced. .

  In addition, it is necessary to prepare the first frame 51 corresponding to the thickness of the optical sheet 200 for each specification of the liquid crystal display device, resulting in an increase in the number of members and an increase in manufacturing cost. SUMMARY OF THE INVENTION In view of such problems, the present invention has an object to provide a liquid crystal display device that improves manufacturing yield by reducing work mistakes during assembly, and further reduces manufacturing costs by reducing the number of members. And

  In order to achieve the above object, the present invention has an optical sheet made of a plurality of sheet materials and a frame for holding the optical sheets, and the plurality of sheet materials are respectively arranged at different positions on the peripheral edge. And at least one of the plurality of sheet members has a first protrusion and a second protrusion at diagonal positions thereof, and the frame has a first protrusion of each of the sheet members. A plurality of first grooves fitted in a one-to-one relationship with the protrusions and a second groove corresponding to the second protrusions, the plurality of sheet materials and the plurality of first grooves They are fitted at different positions on the frame.

  The depth of the first groove of the frame is the sum of the thickness of the sheet material in which the first protrusion fits in the first groove and the thickness of the sheet material superimposed on the upper side. It is substantially equal to.

According to the present invention, it is possible to provide a liquid crystal display device that can improve the manufacturing yield by reducing work mistakes during assembly, and further reduce the manufacturing cost by reducing the number of members.

  Specifically, when an optical sheet composed of one or a plurality of sheet materials is incorporated into the frame, the sheet material is fitted to the frame at different positions or the depth of the groove of the frame is fitted. The structure is made substantially equal to the thickness of the material.

  As a result, it is possible to provide a frame structure that can be used in common for liquid crystal display devices of different specifications, reducing work mistakes such as wrong combination of optical sheets and fitting order, and reducing the number of members. The manufacturing cost can be reduced.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention. In the drawing, the first frame and the optical sheet are turned over and viewed from the lower surface side. In the present embodiment, the optical sheet 200 composed of three different types of sheet plates, that is, the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3, and the first frame 51 are shown in FIGS. 6 is different from the conventional liquid crystal display device shown in FIG. Other structures are basically the same as the conventional one. Further, FIG. 1 does not show any components other than the optical sheet 200 and the first frame 51.

  In the present embodiment, the light source 7 is disposed on the side surface of the light guide plate 9 having a substantially wedge-shaped cross section. The light source 7 includes a rod-shaped lamp and a wiring portion that extends from both ends thereof and is focused on a connector. Further, a reflection sheet 10 that reflects light in a specific direction is provided so as to cover the light source 7 and the light guide plate 9 from the lower surface and the side surface, and further, heat generated from the light source 7 is diffused on the outer side. A heat radiating plate 11 for radiating heat is provided. An upper diffusion plate 1, a prism lens sheet 2, and a lower diffusion plate 3 are superimposed on the upper side of the light guide plate 9.

  The thing of the above structure is hold | maintained so that it may pinch | interpose in the 1st frame 51 from the upper side, and the 2nd frame 52 from the lower side. Further, the liquid crystal display panel 4 is disposed on the upper side of the first frame 51, and is covered with a shield case 6 for the purpose of protection and electrical shielding. Further, a flexible substrate 8 for transmitting a liquid crystal display panel drive signal extends from a side portion of the liquid crystal display panel 4.

The external dimensions and materials of each component used in this embodiment are summarized below.

  As shown in FIG. 1, the first frame 51 has grooves 12, 13, and 14 on the peripheral surface that holds the optical sheet 200. Further, the protrusions 101, 102, and 103 at the peripheral portions of the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 are provided at relatively different positions. Then, the projection 101 of the upper diffusion plate 1 is fitted into the groove 12, the projection 102 of the prism lens sheet 2 is fitted into the groove 13, and the projection 103 of the lower diffusion plate 3 is fitted into the groove 14. ing. In this structure, since the groove of the first frame 51 and the projection of the optical sheet 200 have a pair relationship in the assembly process of the liquid crystal display device, the upper diffusion plate 1 and prism lens sheet that meet the specifications of the liquid crystal display device 2. The lower diffusion plate 3 can be selected and attached without error.

  However, the combination of the sheet materials of the optical sheet 200 is not limited to the above-described upper diffusion plate 1, prism lens sheet 2, and lower diffusion plate 3, but by providing a plurality of grooves in the first frame 51, A combination of a plurality of sheet materials can be handled. The configuration of the optical sheet 200 is not limited to three sheet materials, and can correspond to the optical sheet 200 composed of one or more sheet materials.

  Further, the protrusions of each sheet material constituting the optical sheet 200 are not limited to one place. For example, two protrusions are provided at diagonal positions of the upper diffusion plate 1, and grooves corresponding to the protrusions are provided in the first frame 51. By providing in, the alignment precision of the upper side diffusing plate 1 with respect to the 1st flame | frame 51 can be improved. In the present embodiment, the first frame 51 is provided with a groove. However, if it is possible to fit the protrusion of each sheet material of the optical sheet 200, the second frame 52 is provided with a groove. It is also good.

  FIG. 2 is an exploded perspective view of a liquid crystal display device according to the second embodiment of the present invention. In the present embodiment, the first frame 51 has a peripheral surface that holds the optical sheet 200, in addition to the grooves 12, 13, and 14 disposed in the first embodiment, and a side facing these. Grooves 15, 16, and 17 are disposed in the inner wall. Thereby, for example, in a liquid crystal display device of a certain specification, the grooves 12, 13, and 14 are used as grooves for fitting projections of the respective sheet materials of the optical sheet 200, and in the liquid crystal display device of other specifications, the optical sheet is used. The grooves 15, 16, and 17 can be used as the grooves into which the protrusions of the 200 sheet materials are fitted.

  Therefore, since the first frame 51 can be shared by a plurality of liquid crystal display devices having different specifications, the number of members and the manufacturing cost can be reduced. In addition, the combination of the protrusion of each sheet material of the optical sheet 200 and the groove disposed in the first frame 51 is not limited to the two types described above. Further, the position of the groove is not limited to the two sides of the first frame 51, and may be disposed anywhere on the four sides of the first frame 51. The configuration of the optical sheet 200 is not limited to three sheet materials, and can correspond to the optical sheet 200 composed of one or more sheet materials.

  FIG. 3 is an exploded perspective view of a liquid crystal display device according to the third embodiment of the present invention. In the drawing, the first frame and the optical sheet are viewed from the upper surface side. FIG. 4 is a cross-sectional view of the groove of the liquid crystal display device according to the third embodiment of the present invention. 4A is a cross-sectional view of a groove 18 to be described later, FIG. 4B is a cross-sectional view of the groove 19, and FIG.

  In the present embodiment, the optical sheet 200 composed of three sheet plates of an upper diffusion plate 1, a prism lens sheet 2, and a lower diffusion plate 3 and the first frame 51 are different from the first embodiment. I am doing. Other structures are basically the same as those of the first embodiment. In the present embodiment, the upper diffusion plate 1 has a thickness of 0.2 mm, the prism lens sheet 2 has a thickness of 0.4 mm, and the lower diffusion plate 3 has a thickness of 0.3 mm.

  In the first frame 51, grooves 18, 19, and 20 are disposed on the peripheral surface that holds the optical sheet 200. Then, the projection 101 of the upper diffusion plate 1 is fitted into the groove 18, the projection 102 of the prism lens sheet 2 is fitted into the groove 19, and the projection 103 of the lower diffusion plate 3 is fitted into the groove 20. And the depths of the grooves 18, 19, and 20 are different from each other.

That is, the depth of the groove 20 is 0.31 mm, which is obtained by adding a margin of 0.01 mm to the thickness of the lower diffusion plate 3, and the depth of the groove 19 is the thickness of the lower diffusion plate 3 and the prism lens sheet. A depth of 0.71 mm obtained by adding a margin of 0.01 mm to the thickness of 2, and the depth of the groove 18 is sufficient for the thickness of the lower diffusion plate 3, the thickness of the prism lens sheet 2, and the thickness of the upper diffusion plate 1. The depth was set to 0.91 mm with 0.01 mm added. That is, the depth of each groove is set to be substantially equal to the sum of the thickness of the sheet material protruding into the groove is superimposed on the sheet material and its upper side is fitted.

  In the assembly process of the liquid crystal display device according to the present embodiment, when the respective sheet materials matching the depths of the grooves 18, 19, and 20 of the first frame 51 are fitted, they are fitted to the first frame 51. Since the optical sheet 200 is uniquely determined, it is possible to prevent the combination of the upper diffusion plate 1, the prism lens sheet 2, and the lower diffusion plate 3 and the fitting order from being mistaken.

1 is an exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention. The disassembled perspective view of the liquid crystal display device which concerns on the 2nd Embodiment of this invention. The disassembled perspective view of the liquid crystal display device which concerns on the 3rd Embodiment of this invention. Sectional drawing in the groove | channel of the liquid crystal display device which concerns on the 3rd Embodiment of this invention. The longitudinal cross-sectional view of the conventional liquid crystal display device. The disassembled perspective view which shows the assembly structure of the conventional liquid crystal display device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Upper diffuser plate 2 Prism lens sheet 3 Lower diffuser plate 4 Liquid crystal display panel 6 Shield case 7 Light source 8 Flexible substrate 9 Light guide plate 10 Reflective sheet 11 Heat sink 12-20 Groove 51 First frame 52 Second frame 200 Optical Sheet

Claims (2)

An optical sheet made of a plurality of sheet materials, and a frame for holding the optical sheet,
The plurality of sheet materials each have a first protrusion at a different position on the peripheral edge,
At least one of the plurality of sheet materials has a first protrusion and a second protrusion at diagonal positions thereof,
The frame includes a plurality of first grooves that fit in a one-to-one relationship with the first protrusions of the respective sheet materials, and includes a second groove corresponding to the second protrusions,
The liquid crystal display device, wherein the plurality of sheet materials and the plurality of first grooves are fitted at different positions on the frame. The depth of the first groove of the frame is approximately the sum of the thickness of the sheet material in which the first protrusion fits in the first groove and the thickness of the sheet material superimposed on the upper side. The liquid crystal display device according to claim 1, wherein the liquid crystal display devices are equal.

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