JP2008112859A - Compact lcd module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact LCD module in which the number of FPCs for connection is many and connection reliability is high. <P>SOLUTION: The extrusion direction of a FPC 16 for LCD drive from a LCD panel 14 is made to be perpendicular direction to one side where the substrate 15 for LCD drive is equipped, the extrusion direction of a FPC 17 for LED lighting is made to be in alignment with one side where the substrate 15 for LCD drive is equipped, Thereby, the pulled-out direction of the FPC 16 for LCD drive and the FPC 17 for LED lighting from the LCD panel 14 can be made different even if the FPC 16 for LCD drive and the FPC 17 for LED lighting having a straight line shape are not folded, making it not difficult to perform mounting work without being interfered with these. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a small LCD module, and more particularly to a small LCD module connected to a main board via an FPC.

In a small LCD module, an LED for supplying a backlight and an LCD panel for transmitting the light of the backlight based on a video signal are provided, and the LED and the LCD panel are controlled between the main board and the LCD module. Wiring needs to be done. These wirings are generally performed by flexible FPC (flexible printed circuit (board)) (for example, refer to Patent Document 1).
JP-A-6-43472

When wiring by FPC as in the above document, it is desirable to simplify the shape of the FPC in order to increase the number of FPCs on the work substrate. On the other hand, if the shape of the FPC is made too simple, the FPC must be bent in a plurality of directions to connect the terminals, resulting in a problem that the connection reliability of the FPC is lowered. In the above-mentioned document, there is a problem that the shape of the FPC is complicated and the FPC has to be bent, and the number of FPCs and the connection reliability are both insufficient.
The present invention has been made in view of the above problems, and an object thereof is to provide a small LCD module having a large number of FPCs and high connection reliability.

In order to achieve the above object, the invention according to claim 2 is a rectangular LCD panel in which a large number of LCD elements are arranged, a plurality or a single LED provided on one side of the LCD panel, and light emission from the LED. A light guide unit that guides the emitted light to the entire back surface of the LCD panel, and an LCD driving substrate that is provided on one side of the LED and that drives the LCD element. In the small LCD module in which the drive control of the LED and the lighting control of the LED are performed,
Formed in a rectangular plate shape having terminals at both ends and having flexibility, while the terminal at one end is connected to the substrate for driving the LCD, the other end is projected in a direction perpendicular to one side where the LED is provided, An LCD driving FPC that connects the protruding terminal on the other end to the LCD driving connector provided on the main board, and a flexible elongated rectangular plate that has a length on one side provided with the LED. The LED is connected to the LED by being arranged along the direction, and one end in the length direction is protruded to the outside of the LCD panel in a substantially straight line, and a terminal provided at the protruding end is connected to the LCD on the main board. The LED lighting FPC connected to the LED lighting connector provided in a direction orthogonal to the driving connector is provided.

  The small LCD module of the invention of claim 2 configured as described above includes a rectangular LCD panel in which a large number of LCD elements are arranged and an LCD driving substrate for driving the LCD elements. Meanwhile, one or more LEDs are provided on one side of the LCD panel, and light emitted from the LEDs is guided to the entire back surface of the LCD panel by the light guide unit. Since the drive control of the LCD element and the lighting control of the LED are performed by the main substrate, any image can be reproduced on the LCD panel by driving the LCD element while supplying a backlight from the LED. Can do.

  In order to enable driving control of the LCD element by the main board, the main board and the LCD driving board are connected via an LCD driving FPC. The LCD driving FPC is flexible and has a rectangular plate shape with terminals at both ends. One end of the terminal is connected to the LCD driving substrate, and the other end protrudes in a direction perpendicular to one side where the LED is provided. Then, the main terminal and the LCD driving board are connected via the LCD driving FPC by connecting the protruding terminal at the other end to the LCD driving connector provided on the main board.

  On the other hand, in order to enable lighting control of the LED by the main board, the main board and the LED are connected via an LED lighting FPC. The LED lighting FPC is flexible and has an elongated rectangular plate shape. Since the LED is provided on one side of the LCD panel, the LED lighting FPC and the LED can be connected by arranging the LED lighting FPC along the one side. One end side in the length direction of the LED lighting FPC arranged on one side of the LCD panel provided with the LEDs protrudes outward from the LCD panel in a substantially straight line. Then, the terminal provided at the protruding one end is connected to the LED lighting connector provided on the main board in a direction orthogonal to the LCD driving connector, whereby the main board and the LED are connected to the LED lighting FPC. Can be connected through.

According to a third aspect of the present invention, in the state in which the LCD driving FPC is bent by about 180 degrees so that both ends are opposite to each other, a terminal provided at one end of the LED lighting FPC is the LCD driving Connected to the connector.
In the invention of claim 3 configured as described above, since the LCD driving FPC has flexibility, it can be bent approximately 180 degrees so that both ends thereof are opposite to each other. In such a bent state, a terminal provided at one end of the LED lighting FPC is connected to the LCD driving connector.

Furthermore, the invention according to claim 4 is configured such that a terminal at one end of the LCD driving FPC is connected to the LCD driving substrate at a substantially central portion of one side provided with the LED.
In the invention of claim 4 configured as described above, the LCD driving substrate and one terminal of the LCD driving FPC are connected to each other at a substantially central portion of one side provided with the LED.

The present invention can also be realized as a small LCD module that further embodies the above configuration. As a specific example, the invention according to claim 1 includes a rectangular LCD panel in which a large number of LCD elements are arranged, and the above-described configuration. A plurality or single LED provided on one side of the LCD panel, a light guide unit that guides light emitted from the LED to the entire back surface of the LCD panel, and the LCD provided on one side provided with the LED In a small LCD module having an LCD driving substrate for driving the element, and driving control of the LCD element and lighting control of the LED by a main substrate, a flexible rectangular plate having terminals at both ends. The one end terminal is connected to the LCD driving substrate at a substantially central portion of one side where the LED is provided, and is connected to the LCD panel. A flat connector for projecting the other end in a direction orthogonal to the row and the one side provided with the LED, and inserting the terminal of the projecting other end in parallel to the main substrate. An LCD driving FPC that is connected to the LCD driving connector and bends approximately 180 degrees so that both ends are opposite to each other, and a flexible elongated rectangular plate, overlaps the LCD driving FPC. While connecting to the chip-type LED by arranging the LED along the one side provided with the LED, and projecting the one end side in the length direction to the outside of the LCD panel in a substantially straight line, In a state where the LCD driving FPC is bent by about 180 degrees and the LCD panel and the main board are substantially parallel, the terminal provided at the protruding end is A flat connector to insert parallel to the main board, it is constituted comprising a LED lighting FPC that connects to the LED lighting connector provided in the direction perpendicular to the LCD drive connector on the main board.
It goes without saying that the effects of the inventions of claims 2 to 4 can be realized even in such a configuration.

According to the first and second aspects of the invention, the liquid crystal module and the main board can be connected without bending the FPC having a simple shape, the number of FPCs is large, and the small size has high connection reliability. An LCD module can be provided.
According to the invention of claim 3, the LCD panel can be reversed without bending the FPC.
According to the fourth aspect of the present invention, an image signal can be transmitted at the center of the LCD panel, and a well-balanced arrangement and wiring of the LCD panel can be realized.

Here, embodiments of the present invention will be described in the following order.
(1) Configuration of LCD module:
(2) LCD module installation procedure:
(3) Modification:

(1) Configuration of LCD Module FIG. 1 shows an exploded view of a small LCD module according to an embodiment of the present invention. In the figure, the LCD module 10 includes a back member 11, a reflector 12, a light guide film 13, an LCD panel 14, an LCD driving substrate 15, an LCD driving FPC 16, an LED lighting FPC 17, and a frame cover 18. . The LCD panel 14 has a large number of LCD elements (not shown) arranged therein, and each LCD element can control the transmittance based on a drive signal output from the LCD driving substrate 15. The LCD panel 14 may be a color LCD panel including LCD elements for RGB channels, or a monochrome LCD panel using a single channel LCD element.

  The LCD driving substrate 15 is attached to the center of the lower side of the LCD panel 14. The back member 11 is formed to be larger than the LCD panel 14 by the LCD drive substrate 15, and the LCD drive substrate 15 and the LCD are attached to the back member 11 in a state where the LCD drive substrate 15 is attached to the LCD panel 14. A panel 14 is placed. The LCD driving FPC 16 is formed in a rectangular plate shape, and has terminals 16a and 16b at both ends in the longitudinal direction. A terminal 16 a formed at one end is connected to the LCD driving substrate 15. The LED lighting FPC 17 is formed in an elongated rectangular plate shape, and has a terminal 17a at one end in the length direction. The LCD driving FPC 16 and the LED lighting FPC 17 are flexible substrates in which a predetermined copper wiring and a permanent resist are formed on a flexible resin base material. Since both the LCD driving FPC 16 and the LED lighting FPC 17 have a simple rectangular shape, the number of layouts that can be laid out on one work substrate in the manufacturing process can be increased, and manufacturing can be performed at low cost. Two chip-type white LEDs 19 and 19 are soldered to the LED lighting FPC 17 in advance.

  Although not shown, the LED lighting FPC 17 is formed with lands for connecting the anodes and the cathodes of the LEDs 19 and 19, and the lands and the terminal portions of the LEDs 19 and 19 are soldered. A copper wiring (not shown) is formed in the LED lighting FPC 17, and the land and the terminal 17a formed at the end are electrically connected by this wiring. The LED lighting FPC 17 is attached so that the surface on which the LEDs 19 are mounted partially overlaps the LCD driving substrate 15 and the LCD driving FPC 16 and extends along the lower side of the LCD panel 14. At this time, the LEDs 19 and 19 are in contact with the lower ends of the reflector 12 and the light guide film 13 from below. When the LEDs 19 and 19 emit light, white light enters the light guide film 13.

  Since the light guide film 13 has translucency and a refractive index different from that of the adjacent layers, white light can be guided into the light guide film 13. Light is diffusely reflected inside the light guide film 13, and scattered light exceeding the critical angle enters the LCD panel 14 or the reflector 12. White light incident on the reflecting plate 12 is also totally reflected by the reflecting plate 12 and enters the LCD panel 14. Since the light guide film 13 and the reflection plate 12 cover the entire LCD panel 14, a white backlight can be supplied over the entire surface of the LCD panel 14. The white light incident on the LCD panel 14 is transmitted or shielded depending on the orientation state of the LCD elements in the LCD panel 14. In the case of the color LCD panel 14, some wavelengths are transmitted or shielded. Since the orientation state of the LCD element can be controlled by an image signal input to the LCD driving substrate 15, an arbitrary image can be reproduced on the LCD panel 14. The direction in which the backlight is emitted is on the display surface side of the LCD panel 14. The frame cover 18 is formed in a rectangular frame shape, and has a rectangular window 18a at the center. The frame cover 18 fixes the rear member 11 and the edge of the LCD panel 14 by pressing them from the display surface side of the LCD panel 14.

  FIG. 2 shows the LCD module 10 in an assembled state as viewed from an oblique direction. As shown in the figure, in the assembled state, the LCD driving FPC 16 protrudes downward in a straight line from the central portion of the lower side of the LCD panel 14 to the outer side in the direction along the lower side of the LCD panel 14. The LED lighting FPC 17 protrudes in a straight line. Terminals 16b and 17a are located at the tips of the LCD driving FPC 16 and the LED lighting FPC 17 that protrude. Since the LCD driving FPC 16 and the LED lighting FPC 17 maintain the flat plate-like original shape when no external force is applied, the LCD driving FPC 16 and the LED lighting FPC 17 are substantially parallel to the LCD panel 14. Yes.

(2) LCD module installation procedure:
FIG. 3 shows the main board 20 to which the LCD module 10 is attached as viewed from an oblique direction. In the figure, an LCD drive connector 21 having the same width as the LCD drive FPC 16 is mounted on the LCD module 10. An LED lighting connector 22 in a direction orthogonal to the LCD driving connector 21 is also mounted, and the width of the LED lighting connector 22 is equal to that of the LED lighting FPC 17. The main board 20 is provided with an image reproduction circuit (chip) (not shown), and supplies an LCD drive signal and an LED lighting signal to the LCD driving connector 21 and the LED lighting connector 22 to control driving of the LCD panel 14. It is possible to control the lighting of the LEDs 19 and 19.

  4 and 5 illustrate a procedure for attaching the LCD module 10 to the main board 20. As shown in FIG. 4, first, the terminal 16 b at the tip of the LCD driving FPC 16 is inserted into the LCD driving connector 21. The LCD drive connector 21 is a flat connector in which the terminal 16b is inserted in parallel to the main board 20, and the terminal 16b is inserted and fixed in a state where the terminal 16b is inserted in parallel and the electrical connection is ensured. it can. At this time, the display surface of the LCD panel 14 of the LCD module 10 is in a direction facing the main substrate 20.

  Next, the LCD panel 14 is turned over as shown in FIG. As a result, the display surface of the LCD panel 14 is directed in the direction opposite to the main substrate 20. At the same time, the LCD driving FPC 16 that is planar in the state of FIG. 4 is bent 180 degrees. Since the LCD driving FPC 16 is connected to the central portion of the LCD panel 14 in the width direction, the LCD driving FPC 16 can be bent straight in a balanced manner. In this state, the terminal 17a at the tip of the LED lighting FPC 17 is located at a position where the LED lighting connector 22 is disposed. The LED lighting connector 22 can insert the terminal 17a of the LED lighting FPC 17 in parallel to the main board 20 from the side where the LCD panel 14 is located when the LCD panel 14 is turned over, and the terminal 17a is inserted. In this state, the terminal 17a is fixed, and the mounting of the LCD module 10 is completed. When the attachment of the LCD module 10 to the main board 20 is completed, the LCD module 10 and the main board 20 are attached to the cabinet.

  In the present embodiment as described above, since the LCD driving FPC 16 and the LED lighting FPC 17 are pulled out from the LCD panel 14 in different directions, the LCD driving FPC 16 is not limited to the LED lighting FPC 17. can do. Accordingly, the LCD driving FPC 16 can be connected to the central portion of the LCD panel 14, and a balanced arrangement and wiring of the LCD panel 14 can be realized. Since the LCD driving FPC 16 and the LED lighting FPC 17 can be connected at a distance from each other on the main board 20, the LCD driving FPC 16 and the LED lighting FPC 17 do not interfere with each other to make the connection work difficult.

  Further, since the LCD driving FPC 16 and the LED lighting FPC 17 can be drawn in a straight line, the shapes of the LCD driving FPC 16 and the LED lighting FPC 17 are simplified, and the number of manufacturing steps in these manufacturing processes can be increased. Further, by fixing the terminal 17a of the LED lighting FPC 17 to the LED lighting connector 22, it is possible to prevent the LCD panel 14 from being turned over in the original direction by the restoring force of the LCD driving FPC 16, thereby improving workability. Can do. Further, since neither the LCD driving FPC 16 nor the LED lighting FPC 17 is bent, the connection reliability is high.

(3) Modifications The present invention is only required to simplify the shapes of the LCD driving FPC and the LED lighting FPC by changing the drawing directions of the LCD driving FPC and the LED lighting FPC from the LCD panel. In this range, specific embodiments can be changed. For example, like the LCD module 110 shown in FIG. 6, the LCD driving FPC 116 can be attached without being bent 180 degrees. By changing the contact direction of the terminal 116b of the LCD driving FPC 116 or the LCD driving connector 21, the display surface of the LCD panel 114 faces away from the main substrate 120 without bending the LCD driving FPC 116 by 180 degrees. Can be. Also in this case, if the LED lighting connector 122 is disposed at the position of the terminal 117 of the LED lighting FPC 117, the LCD module 110 can be easily attached.

It is a disassembled perspective view of a LCD module. It is a perspective view of a LCD module. It is a perspective view of a main board. It is a perspective view explaining attachment of a LCD module. It is a perspective view explaining attachment of a LCD module. It is a perspective view explaining attachment of the LCD module concerning a modification.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... LCD module, 11 ... Back member, 12 ... Reflection board, 13 ... Light guide film, 14 ... LCD panel, 15 ... Substrate for LCD drive, 16 ... FPC for LCD drive, 16a, 16b ... Terminal, 17 ... LED lighting FPC, 17a ... terminal, 18 ... frame cover, 18a ... window, 19 ... LED, 20 ... main board, 21 ... LCD drive connector, 22 ... LED lighting connector.

Claims (4)

A rectangular LCD panel in which a large number of LCD elements are arranged, a plurality or single LEDs provided on one side of the LCD panel, and a light guide for guiding light emitted from the LEDs to the entire back surface of the LCD panel. A small LCD module comprising an optical part and an LCD driving substrate provided on one side of the LED and driving the LCD element, wherein the main element performs drive control of the LCD element and lighting control of the LED. In
It is formed in a flexible rectangular plate shape with terminals at both ends, and the terminal at one end is connected to the LCD driving substrate at a substantially central portion of one side where the LED is provided, and is substantially connected to the LCD panel. A flat connector in which the other end protrudes in a direction that is parallel and perpendicular to one side provided with the LED, and the terminal of the other end that protrudes is inserted in parallel to the main substrate. An LCD driving FPC that is connected to the LCD driving connector and bends approximately 180 degrees so that both ends are opposite to each other;
It is formed in the shape of an elongated rectangular plate having flexibility, and is connected to the chip type LED by arranging the LED along the one side provided with the LED while overlapping with the LCD driving FPC. While projecting one end side in the vertical direction to the outside of the LCD panel in a substantially straight line,
A flat connector for inserting a terminal provided at one end protruding in parallel with the main board in a state in which the LCD driving FPC is bent by about 180 degrees and the LCD panel and the main board are substantially parallel; A small LCD module comprising: an LED lighting FPC connected to an LED lighting connector provided in a direction orthogonal to the LCD driving connector on the main board. A rectangular LCD panel in which a large number of LCD elements are arranged, a plurality or single LEDs provided on one side of the LCD panel, and a light guide for guiding light emitted from the LEDs to the entire back surface of the LCD panel. A small LCD module comprising an optical part and an LCD driving substrate provided on one side of the LED and driving the LCD element, wherein the main element performs drive control of the LCD element and lighting control of the LED. In
Formed in a rectangular plate shape having terminals at both ends and having flexibility, while the terminal at one end is connected to the substrate for driving the LCD, the other end is projected in a direction perpendicular to one side where the LED is provided, An LCD driving FPC for connecting the protruding other terminal to the LCD driving connector provided on the main board;
It is formed in the shape of an elongated rectangular plate having flexibility, and is connected to the LED by placing the LED along the one side where the LED is provided, and the one end side in the length direction is substantially straight. While projecting outside the LCD panel,
A small LCD module comprising: an LED lighting FPC for connecting a terminal provided at one end protruding to an LED lighting connector provided in a direction orthogonal to the LCD driving connector on the main board.   A terminal provided at one end of the LED lighting FPC is connected to the LCD driving connector in a state where the LCD driving FPC is bent by about 180 degrees so that both ends are opposite to each other. The small LCD module according to claim 2. 4. The terminal of one end of the LCD driving FPC is connected to the LCD driving substrate at a substantially central portion of one side provided with the LED. Small LCD module.

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