JP2014119693A - Liquid crystal display device and method for manufacturing liquid crystal display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid crystal display element which has an antistatic function and is capable of achieving a frame narrowing structure and to provide a method for manufacturing a liquid crystal display device.SOLUTION: The liquid crystal display device includes panels 1a and 1b provided on the front side and light source parts 11 and 12 provided on the back side. The panel includes a conductive sheet 2 provided on the surface of the panel and a first conductive material 4 provided on the side surface of the panel and coming into contact with the conductive sheet 2. The light source parts 11 and 12 include a metallic frame 21 connected to the earth and the panels 1a and 1b and the metallic frame 21 are connected to each other through a second conductive material 22. The first conductive material 4 is connected to the earth through the second conductive material 22 and the metallic frame 21.

Description

  The present invention relates to a liquid crystal display device suitable for narrowing a frame for expanding an image displayable region and a method for manufacturing the liquid crystal display device.

  FIG. 3 is a diagram showing a cross-sectional structure of a conventional liquid crystal display device. The liquid crystal display device shown in FIG. 3 includes a panel 101, a conductive sheet 102, a light guide plate 111, a back cover 112, and a metal frame 121.

  The front side (panel side) of the liquid crystal display device is constituted by a panel 101 having a conductive sheet 102 on the surface. On the other hand, the back side (light source side) of the liquid crystal display device includes a light guide plate 111 on a back cover 112. Furthermore, a metal frame 121 is provided in order to prevent electrical charging by electrically connecting the conductive sheet 102 and the back cover 112 to enable grounding (see, for example, Patent Document 1).

  In particular, in the IPS mode, in order to prevent charging, it is common to use ITO and a transparent conductive film as the conductive sheet 102 provided on the panel surface as shown in FIG.

JP 2006-161004 A

However, the prior art has the following problems.
In the prior art, a side seal (not shown in FIG. 3) provided on the side surface of the panel 101 does not have conductivity. Therefore, as shown in FIG. 3, in order to connect the conductive sheet 102 to the ground, the end portion of the metal frame 121 is bent to the surface portion of the liquid crystal display device, and the metal frame 121 and the conductive sheet 102 are connected. There is a need to.

  Further, in order to realize a narrow frame for widening an image displayable area, if the amount of bending the end portion of the metal frame 121 to the surface portion of the liquid crystal display device is reduced more than necessary, the conductive sheet 102 is surely secured. Since it cannot be grounded, charging cannot be prevented and whitening occurs. Therefore, it is desired to realize a narrow frame structure having a new antistatic function.

  The present invention has been made to solve the above-described problems, and provides a liquid crystal display element and a method for manufacturing a liquid crystal display device that have an antistatic function and can realize a narrow frame structure. With the goal.

  The liquid crystal display device according to the present invention is a liquid crystal display device comprising a panel provided on the front side and a light source unit provided on the back side, the panel comprising a conductive sheet provided on the panel surface, A first conductive material provided on the side of the panel and in contact with the conductive sheet, the light source unit has a metal frame connected to the ground, and the panel and the metal frame have a second conductive property. The first conductive material is connected to the ground via the second conductive material and the metal frame.

  In addition, a method for manufacturing a liquid crystal display device according to the present invention is a method for manufacturing a liquid crystal display device including a panel provided on the front side and a light source unit provided on the back side. A panel having a sheet and a first conductive material in contact with the conductive sheet on a side of the panel; a light source unit having a metal frame connected to ground; and a light source. And connecting the first conductive material to the ground via the second conductive material and the metal frame by connecting the metal frame and the panel of the portion through the second conductive material. Is.

  According to the present invention, the first conductive material is provided on the panel side surface of the liquid crystal display device, and the first conductive material, the second conductive material connecting the panel and the light source unit, and the light source unit are provided. A liquid crystal display element and a method of manufacturing a liquid crystal display device capable of realizing an antistatic function and a narrow frame structure by connecting the first conductive material to the ground via a metal frame Can be obtained.

It is the figure which showed the cross-section of the liquid crystal display device in Embodiment 1 of this invention. It is the figure which showed the cross-section of the liquid crystal display device in Embodiment 2 of this invention. It is the figure which showed the cross-section of the conventional liquid crystal display device.

  Hereinafter, preferred embodiments of a liquid crystal display element and a method for producing a liquid crystal display device of the present invention will be described with reference to the drawings.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a cross-sectional structure of a liquid crystal display device according to Embodiment 1 of the present invention, and shows a conductive polarizing plate type liquid crystal display device. 1 includes a front substrate 1a, a back substrate 1b, a conductive film (conductive sheet) 2, a polarizing plate 3, a first conductive material 4, a light guide plate 11, a back cover 12, and a metal frame. 21, and a second conductive material 22.

  Here, the front side (panel side) of the liquid crystal display device including the front substrate 1a and the back substrate 1b has the conductive film 2 on the surface and the polarizing plate 3 on the back. Furthermore, in the side surface portion, the first conductive material 4 is provided so as to cover all of the front substrate 1a, the back substrate 1b, and the conductive film 2.

  On the other hand, the back side (light source side) of the liquid crystal display device is configured to include the light guide plate 11 on the back cover 12, and an L-shaped metal frame 21 covers the frame portion on the light source side. Is provided.

  Further, the rear substrate 1 b on the front side and the metal frame 21 on the rear side are bonded via a second conductive material 22. At the same time, the second conductive material 22 is also connected to the first conductive material 4.

The liquid crystal display device shown in FIG. 1 can be manufactured by the following procedure.
(Procedure 1) When manufacturing the front side provided with the front substrate 1a, the back substrate 1b, the conductive film 2, and the polarizing plate 3, the side portion that covers all of the front substrate 1a, the back substrate 1b, and the conductive film 2 is applied. The first conductive material 4 is provided to bond them.
(Procedure 2) A metal frame 21 connected to the ground is provided on the frame portion on the back side constituted by including the light guide plate 11 on the back cover 12.
(Procedure 3) The rear substrate 1b and the first conductive material 4 on the front side are bonded to the metal frame 21 on the rear side via the second conductive material 22.

  With such a configuration, the conductive film 2 provided on the surface of the liquid crystal display device is connected to the ground via the first conductive material 4, the second conductive material 22, and the metal frame 21. Therefore, it is possible to prevent charging. Furthermore, since the conductive film 2 can be connected to the ground by the action of the first conductive material 4 provided on the side surface of the liquid crystal display device, it is possible to realize a narrow frame for expanding an image displayable area. it can.

  As described above, according to the first embodiment, the first conductive material is provided on the front panel side surface of the liquid crystal display device. As a result, by connecting the first conductive material to the ground, the conductive sheet of the front panel can be provided with an antistatic function, and a liquid crystal display element realizing a narrow frame structure can be obtained. it can.

Embodiment 2. FIG.
FIG. 2 is a diagram showing a cross-sectional structure of the liquid crystal display device according to Embodiment 2 of the present invention, and shows an ITO film-forming type liquid crystal display device. The liquid crystal display device shown in FIG. 2 includes a front substrate 1a, a back substrate 1b, an ITO film 2a, polarizing plates 3a and 3b, a first conductive material 4, a light guide plate 11, a back cover 12, a metal frame 21, and a first frame. Two conductive substances 22 are provided.

  Here, the front side (panel side) of the liquid crystal display device including the front substrate 1a and the rear substrate 1b has a polarizing plate 3a on the surface with an ITO film 2a interposed therebetween, and has a polarizing plate 3b on the back. doing. Furthermore, the first conductive material 4 is provided on the side surface portion on the front side of the liquid crystal display device so as to cover all of the front substrate 1a, the back substrate 1b, the ITO film 2a, and the polarizing plate 3a.

  On the other hand, the back side (light source side) of the liquid crystal display device is configured to include the light guide plate 11 on the back cover 12, and an L-shaped metal frame 21 covers the frame portion on the light source side. Is provided.

  Further, the rear substrate 1 b on the front side and the metal frame 21 on the rear side are bonded via a second conductive material 22. At the same time, the second conductive material 22 is also connected to the first conductive material 4.

The liquid crystal display device shown in FIG. 2 can be manufactured by the following procedure.
(Procedure 1) When manufacturing the front side provided with the front substrate 1a, the back substrate 1b, the ITO film 2a, and the polarizing plates 3a and 3b, all of the front substrate 1a, the back substrate 1b, the ITO film 2a and the polarizing plate 3a Adhesion on the front side is performed by providing the first conductive material 4 on the side surface portion.
(Procedure 2) A metal frame 21 connected to the ground is provided on the frame portion on the back side constituted by including the light guide plate 11 on the back cover 12.
(Procedure 3) The rear substrate 1b and the first conductive material 4 on the front side are bonded to the metal frame 21 on the back side via the second conductive material 22.

  By having such a configuration, the ITO film 2 a provided on the surface of the liquid crystal display device is connected to the ground via the first conductive material 4, the second conductive material 22, and the metal frame 21. Therefore, it is possible to prevent charging. Furthermore, since the ITO film 2a can be connected to the ground by the action of the first conductive material 4 provided on the side surface of the liquid crystal display device, it is possible to realize a narrow frame for expanding an image displayable area. .

  As described above, according to the second embodiment, the first conductive material is provided on the front panel side surface of the liquid crystal display device. As a result, by connecting the first conductive material to the ground, the conductive sheet of the front panel can be provided with an antistatic function, and a liquid crystal display element realizing a narrow frame structure can be obtained. it can.

  As a conductive material provided on the front surface of the panel for preventing charging, the first embodiment exemplifies the case where the conductive film 2 is provided on the front surface of the panel. In the second embodiment, the ITO film 2a is provided on the front surface of the panel. The case was illustrated. However, the present invention can realize the same effect by using a conductive polarizing plate or a transparent conductive film instead of these as the conductive material.

In addition, it is desirable that the conductive film provided on the front surface of the panel in order to prevent electrostatic charge has a volume resistance of 10 ¹ to 10 ⁷ Ω · m, in particular, as a conductive property capable of preventing charging.

  Furthermore, the conductive substance used in the present invention may be an adhesive, a pressure-sensitive adhesive, or a double-sided tape. Moreover, it is preferable that it is an adhesive agent as the electroconductive substance 4 used for a panel side surface. Further, as the conductive material 22 used for connection between the front side panel and the back side panel, a flexible adhesive or a double-sided tape is more preferable. Furthermore, the color of the conductive material is preferably blue or black.

  Although not shown in FIGS. 1 and 2, when the terminal portion of the liquid crystal panel is provided with an antistatic function with a conductive substance, an insulating layer is formed to protect the terminal before conducting the conductive operation. A sex substance is applied and formed.

When the above contents are arranged, specific examples of the conductive material used in the present invention to realize a narrow frame structure are as follows.
(1) As a conductive sheet (corresponding to the conductive film 2 and the ITO film 2a) provided on the panel surface, a conductive polarizing plate, a transparent conductive film, an ITO film, or the like can be used.
(2) A conductive black side seal can be used as a seal for panel external protection (corresponding to the first conductive material 4).
(3) For fixing the panel and the light source unit (corresponding to the second conductive material 22), a conductive double-sided tape or an adhesive can be used.
(4) As the frame (corresponding to the metal frame 21), a conductive metal can be used.

  Therefore, according to the liquid crystal display device of the present invention, not only the protection of the liquid crystal panel with the conductive adhesive and the fixing of the panel and the light source unit with the conductive double-sided tape and the adhesive, but also the narrowing of the frame with improved design. It is possible to effectively realize antistatic with the structure.

  DESCRIPTION OF SYMBOLS 1a Front substrate, 1b Rear substrate, 2 Conductive film, 2a ITO film, 3, 3a, 3b Polarizing plate, 4 1st electroconductive substance, 11 Light guide plate, 12 Back cover, 21 Metal frame, 22 2nd electroconductivity Sex substances.

Claims (5)

A liquid crystal display device including a panel provided on the front side and a light source unit provided on the back side,
The panel includes a conductive sheet provided on a panel surface, and a first conductive material provided on a panel side surface and in contact with the conductive sheet;
The light source unit has a metal frame connected to the ground,
The panel and the metal frame are connected via a second conductive material,
The liquid crystal display device, wherein the first conductive material is connected to the ground through the second conductive material and the metal frame. The liquid crystal display device according to claim 1.
The said conductive sheet is a liquid crystal display device comprised by either a conductive polarizing plate, a transparent conductive film, or an ITO film | membrane. The liquid crystal display device according to claim 1 or 2,
The liquid crystal display device, wherein the first conductive material is composed of an adhesive. The liquid crystal display device according to any one of claims 1 to 3,
The liquid crystal display device, wherein the second conductive material is composed of a flexible adhesive or a double-sided tape. A method of manufacturing a liquid crystal display device comprising a panel provided on the front side and a light source unit provided on the back side,
Manufacturing the panel with a conductive sheet on the panel surface and a first conductive material in contact with the conductive sheet on the side of the panel;
Manufacturing the light source unit to comprise a metal frame connected to ground;
By connecting the metal frame of the light source unit and the panel via a second conductive material, the first conductive material is transferred via the second conductive material and the metal frame. A method for manufacturing a liquid crystal display device.

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