JP4651318B2 - Liquid crystal display device - Google Patents

Description

  The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display device in which a semiconductor circuit is mounted on a substrate by COG technology.

  In recent years, liquid crystal display devices have been reduced in size. A COG (Chip On Glass) technique exists as one of the downsizing techniques of the liquid crystal display device. The COG technique is a technique for attaching a semiconductor integrated circuit such as a driver to a glass substrate of a liquid crystal display device. A liquid crystal display device to which a conventional COG technique is applied will be described below with reference to the drawings. FIG. 6 is a perspective view of the liquid crystal display device as viewed from the display direction (hereinafter referred to as the front surface). FIG. 7 is a perspective view of the liquid crystal display device as viewed from the side opposite to the display direction (hereinafter referred to as the back side).

  The liquid crystal display device shown in FIGS. 6 and 7 includes a first substrate 1001, a second substrate 1002, a semiconductor circuit 1003, a case 1004, and a double-sided flexible printed substrate 1005. The double-sided flexible printed board 1005 includes a circuit 1010 including a capacitor in a predetermined region on one side. Each component will be described below.

  The first substrate 1001 is a substrate disposed on the front side in the liquid crystal display device, and is realized by glass, for example. In addition, the first substrate 1001 includes members such as a color filter and a transparent electrode.

  The second substrate 1002 is disposed on the back side of the liquid crystal display device, sandwiches a liquid crystal layer together with the first substrate 1001, and is realized by, for example, glass. When the second substrate 1002 is a so-called active matrix substrate, the second substrate 1002 is a TFT substrate in which transistors are formed in a matrix on the main surface.

  The semiconductor circuit 1003 is a circuit for driving the liquid crystal display device. Specifically, the semiconductor circuit 1003 is a source driver or a gate driver of a liquid crystal display device. The semiconductor circuit 1003 is mounted so that the surface on which the circuit is formed faces the second substrate 1002 in a portion where the second substrate 1002 protrudes from the first substrate 1001. Hereinafter, the first substrate 1001, the second substrate 1002, and the semiconductor circuit 1003 are collectively referred to as a liquid crystal panel.

  The case 1004 is a case for protecting the liquid crystal panel, and is realized by, for example, a resin. That is, the liquid crystal panel is fitted in the case 1004 as shown in FIG.

  The double-sided flexible printed board 1005 is a board in which wirings are formed on both main surfaces, and is realized by a flexible material. One end of the double-sided flexible printed board 1005 is connected to a portion where the second board 1002 protrudes from the first board 1001 as shown in FIG. Note that a circuit for electrically connecting the semiconductor circuit 1003 and the double-sided flexible printed circuit board 1005 is formed on the main surface of the second substrate 1002 in a region between the second substrate 1002 and the semiconductor circuit 1003. (Not shown in FIG. 6). The other end of the double-sided flexible printed board 1005 is connected to an external circuit (not shown in FIGS. 6 and 7). That is, the double-sided flexible printed board 1005 is a circuit for electrically connecting an external circuit and the semiconductor circuit 1003.

  Further, as shown in FIG. 7, a circuit 1010 including a capacitor is formed on one main surface of the double-sided flexible printed board 1005. This is because a capacitor cannot be formed in the semiconductor circuit 1003 or the second substrate 1002.

As described above, in the conventional liquid crystal display device, the liquid crystal panel and the external circuit are electrically connected using the double-sided flexible printed circuit board 1005.
JP 2004-20703 A

  By the way, the double-sided flexible printed circuit board 1005 is more expensive than a single-sided flexible printed circuit board in which wiring is formed only on one main surface. Therefore, the conventional liquid crystal display device using the double-sided flexible printed circuit board 1005 has a problem of becoming expensive. In order to solve such a problem, it is conceivable to use a single-sided flexible printed board instead of the double-sided flexible printed board 1005.

  However, in the conventional liquid crystal display device, a single-sided flexible printed board cannot be used from the viewpoint of wiring. Hereinafter, it will be described in detail with reference to the drawings. FIG. 8 is a diagram showing a double-sided flexible printed circuit board 1005 and a part of wiring formed on the double-sided flexible printed circuit board 1005. Note that the first wiring 1101 and the second wiring 1102 are wirings formed on the double-sided flexible printed circuit board 1005. Of the two wires, the part indicated by a solid line indicates that it is formed on the surface of the double-sided flexible printed board 1005, and the part indicated by a dotted line is on the back side of the double-sided flexible printed board. It is formed.

A circuit 1010 including a capacitor is formed on one surface of the double-sided flexible printed board 1005 as shown in FIG. In the circuit 1010 including the capacitor, a place where the wirings intersect on the double-sided flexible printed board 1005 is necessary. In order to realize such a wiring structure, the conventional liquid crystal display device has a structure as shown in FIG. Specifically, when the first wiring 1101 and the second wiring 1102 intersect, the solid line portion of the second wiring 1102 is led to the back surface of the double-sided flexible printed circuit board 1005 through the through hole 1103. It is burned. Further, as indicated by the dotted line in FIG. 8, the second wiring 1102 passes through the back surface of the double-sided flexible printed board 1005 and intersects the first wiring 1101. That is, in the conventional liquid crystal display device, the wirings are crossed using the wirings formed on both main surfaces of the double-sided flexible printed circuit board 1005. Therefore, in a conventional liquid crystal display device, a single-sided flexible printed board cannot be used instead of the double-sided flexible printed board 1005. As a result, the liquid crystal display device could not be made inexpensively.

  Accordingly, an object of the present invention is to provide a liquid crystal display device that can be produced at a lower cost than the above-described conventional liquid crystal display device using a double-sided flexible printed circuit board.

The liquid crystal display device according to the present invention includes a liquid crystal display panel, a case, a hard substrate, a light source, a reflection portion, a light guide portion, and a flexible printed circuit board for internal connection .

  More specifically, in the liquid crystal display panel, a semiconductor circuit is mounted on one main surface of a built-in second substrate, and a wiring electrically connected to the semiconductor circuit is formed. The case includes a main surface having an opening and a side surface surrounding the main surface, and protects the liquid crystal display panel. The hard substrate has a first main surface and a second main surface, has a first circuit on the first main surface, and has a second circuit electrically connected to the first circuit, It has in the 2nd main surface and is arrange | positioned at the back surface of a case.

The light source is mounted on the first main surface of the rigid substrate. The reflection portion is disposed on the first main surface of the hard substrate and reflects light from the light source. The light guide unit is sandwiched between the reflection unit and the main surface of the case, and guides light from the light source and the reflection unit to the opening. The flexible printed circuit board for internal connection is formed of a flexible material, and a wiring that electrically connects the second circuit and the wiring provided on the second substrate is formed only on one main surface. . The first circuit is provided outside the reflecting portion, and is provided in a region opposite to the region where the light source is provided across the central portion of the first main surface.

  The liquid crystal display device according to the present invention may further include an external connection flexible printed circuit board that electrically connects the second circuit and a circuit provided outside.

  In the liquid crystal display device according to the present invention, the internal connection flexible substrate and the external connection flexible substrate may be formed of a common flexible material.

  In the liquid crystal display device according to the present invention, the internal connection flexible printed circuit board and the external connection flexible printed circuit board may be attached adjacent to each other on the second main surface of the rigid substrate.

  In the liquid crystal display device according to the present invention, the first circuit may include a capacitor.

  According to the liquid crystal display device according to the present invention, a hard substrate having wirings formed on both sides and a single-sided flexible printed substrate are used instead of the double-sided flexible printed substrate. Here, the hard substrate and the single-sided flexible printed circuit board are available at a lower cost than the double-sided flexible printed circuit board. Therefore, according to the liquid crystal display device according to the present invention, the manufacturing cost can be reduced.

  Moreover, in the conventional liquid crystal display device, since it was necessary to cross | intersect wiring, a single-sided flexible printed circuit board could not be used. However, in the liquid crystal display device according to the present invention, the wirings can be crossed by using a hard substrate having wirings formed on both sides.

  A liquid crystal display device according to an embodiment of the present invention will be described below with reference to the drawings. In the liquid crystal display device according to the present embodiment, a single-sided flexible printed circuit board can be used instead of the double-sided flexible printed circuit board to reduce the manufacturing cost. Here, FIG. 1 is a perspective view of the liquid crystal display device according to the present embodiment. Specifically, FIG. 1A is a perspective view of a display direction (hereinafter referred to as a front surface) of the liquid crystal display device. FIG. 1B is a perspective view of the liquid crystal display device on the side opposite to the display direction (hereinafter referred to as the back side). FIG. 2 is a diagram showing each configuration diagram when the liquid crystal display device is disassembled. 3 and 4 are diagrams when the hard substrate on the back surface of the liquid crystal display device is developed.

  The liquid crystal display device according to the present embodiment includes a first substrate 1, a second substrate 2, a semiconductor circuit 3, a case 4, a single-sided flexible printed substrate 5, a hard substrate 6, a light source 7, a reflecting plate 8, and a light guide plate 9. Prepare.

  The first substrate 1 is a substrate disposed on the front side in the liquid crystal display device, and is realized by, for example, glass. The first substrate 1 includes members such as a color filter and a transparent electrode.

  The second substrate 2 is disposed on the back side of the liquid crystal display device, sandwiches a liquid crystal layer together with the first substrate 1, and is realized by, for example, glass. When the second substrate 2 is a so-called active matrix substrate, it is a TFT substrate in which transistors are formed in a matrix on the main surface.

The semiconductor circuit 3 is a circuit for driving the liquid crystal display device. Specifically, the semiconductor circuit 3 is a source driver or a gate driver of a liquid crystal display device. The semiconductor circuit 3 is mounted on one main surface of the second substrate by COG technology. Specifically, the semiconductor circuit 3 is mounted such that the surface on which the circuit is formed is opposed to the second substrate 2 in a portion where the second substrate 2 protrudes from the first substrate 1. Note that wiring (not shown in FIGS. 1 to 4) electrically connected to the semiconductor circuit 3 is formed on one main surface of the second substrate. Hereinafter, the first substrate 1, the second substrate 2, and the semiconductor circuit 3 are collectively referred to as a liquid crystal panel. FIG. 2A is a perspective view of the liquid crystal panel.

  The case 4 is a case for protecting the liquid crystal panel, and is realized by, for example, a resin. FIG. 2B is a perspective view of the case 4. As shown in FIG. 2B, an opening is provided in a predetermined region of the main surface of the case 4. The opening is provided to allow light to pass from the back side to the front side of the liquid crystal display device. Further, a side surface is formed so as to surround the main surface of case 4. The liquid crystal panel is fitted into a recess formed by the side surface and the main surface of the case 4 shown in FIG.

  The hard substrate 6 has a first main surface and a second main surface, has a first circuit 10 including a capacitor on the first main surface, and is electrically connected to the first circuit. Two circuits (not shown in FIGS. 1 to 4) are provided on the second main surface. In the present embodiment, the first main surface is the main surface on the front side, and the second main surface is the main surface on the back side. The said hard board | substrate 6 is arrange | positioned at the back side of the case 4, and is used as a back cover of the said case 4, for example, copper wiring is formed in both the main surfaces of a resin-made flat plate. Further, the first circuit and the second circuit are electrically connected through a through hole. As a result, the wirings included in the first circuit and the second circuit can be crossed without being electrically connected.

  The light source 7 is a backlight of the liquid crystal display device, and emits light upon receiving power supply. The light source 7 is realized by an LED, for example, and is mounted on the main surface (first main surface) on the front surface side of the hard substrate 6 as shown in FIG.

  The reflection sheet 8 reflects the light emitted from the light source 7 to the front side. The reflection sheet 8 is bonded to the main surface (first main surface) on the front surface side of the hard substrate 6 as shown in FIG.

  The light guide plate 9 is a member that guides light from the reflection sheet 8 and the light source 7 to the front side. As shown in FIGS. 2 and 4, the light guide plate 9 is provided on the back side of the main surface of the case 4 so as to coincide with the opening of the main surface of the case 4. That is, the light guide plate 9 is sandwiched between the main surface of the case 4 and the reflection sheet 8.

The single-sided flexible printed circuit board 5 is formed with wiring for electrically connecting the second circuit of the hard board 6 and the wiring of the second board 2 connected to the semiconductor circuit 3 only on one main surface, Made of flexible material. As shown in FIGS. 1 and 3, the single-sided flexible printed circuit board 5 includes a first input / output unit 5 ₀ , a first flexible printed circuit board 5 ₁ , a second input / output unit 5 ₂ , and a third input / output unit. part _{5 3,} including input and output section _{5 5} of the second flexible printed circuit board _{5 4} and a fourth.

The first output unit 5 ₀ is for terminals for input and output are arranged a plurality. The first output unit 5 _0, as shown in FIGS. 1 and 3, in the portion where the first substrate 1 protrudes second substrate 2, the surface on which terminals are formed a second substrate 2 is mounted so as to face 2. Thus, the first output unit 5 _0, the terminal is connected connected to the second of the wire and electrically substrate 2 in the semiconductor substrate 3. As a result, the first input / output unit ₅₀ and the semiconductor circuit 3 are electrically connected.

Second input-output portion 5 ₂ is a terminal for input and output are arranged a plurality. Output unit 5 ₂ of the second is affixed to the back side of the main surface of the rigid substrate 6 (second main surface).

First flexible printed circuit board 5 _1, first input and output unit 5 ₀ the circuit for electrically connecting the second input and output unit 5 ₂ is formed only on one surface. That is, the first flexible printed circuit board 5 ₁ , the first input / output unit _50, and the second input / output unit 5 ₂ serve to electrically connect the semiconductor circuit 3 and the second circuit of the hard substrate 6. Fulfill.

The third output portion 5 ₃ of are those terminals for input and output are arranged a plurality. The third output portion 5 ₃ of is affixed to the back side of the main surface of the rigid substrate 6 (second main surface).

The fourth output section 5 ₅ is a terminal for input and output are arranged a plurality. The first four of the input and output section 5 ₅ is a terminal which is connected to an external circuit (not shown in FIGS. 1-4).

The second flexible printed circuit board 5 _4, the third input-output unit ₃ and the fourth circuit for electrically connecting the input and output unit 5 ₅ is formed only on one surface. That is, the second flexible printed circuit board 5 _4, the third input-output unit ₃ and the fourth output section 5 ₅ serves to electrically connect the circuit of the second circuit and an external hard substrate 6 Fulfill. The first input / output unit 5 ₀ , the first flexible printed circuit board 5 ₁ , the second input / output unit 5 ₂ , the third input / output unit 5 ₃ , the second flexible printed circuit board 5 _4, and the fourth input and output section 5 ₅ may be formed by a single sheet. In addition, the first input / output unit 5 ₀ , the first flexible printed circuit board 51, and the second input / output unit 5 ₂ are formed of one sheet, and the third input / output unit 5 ₃ , the second flexible printed circuit board 5 ₁ PCB 5 ₄ and the fourth input output section 5 ₅ may be formed by a single sheet. In this case, the second output unit 5 ₂ and the third input-output unit _3, it is preferable to be bonded in a position close to each other.

  As described above, the liquid crystal display device according to the present embodiment can be produced at a lower cost than the conventional liquid crystal display device. This will be described in detail below.

  In a conventional liquid crystal display device, a double-sided flexible printed circuit board is used to cross wiring. On the other hand, in the liquid crystal display device according to the present embodiment, the wirings are crossed using a hard substrate having wirings formed on both surfaces. This makes it possible to use a single-sided flexible printed board instead of the double-sided flexible printed board. Here, the hard substrate and the single-sided flexible printed circuit board are available at a lower cost than the double-sided flexible printed circuit board. Therefore, according to the liquid crystal display device according to the present embodiment, the manufacturing cost of the liquid crystal display device can be suppressed.

  Further, according to the liquid crystal display device according to the present embodiment, the hard substrate is used as the case back cover. This eliminates the need to prepare a separate case back cover. As a result, the number of parts of the liquid crystal display device can be reduced. In addition, the liquid crystal display device can be made compact.

  In the liquid crystal display device according to the present embodiment, the hard substrate is used as the back cover, but the hard substrate is not necessarily used as the back cover. For example, the hard substrate may be provided so as to cover a part of the back surface of the case, as indicated by the hatched portion in FIG. FIG. 5 is a perspective view of the back side of the liquid crystal display device.

  In the liquid crystal display device according to the present embodiment, a TN (twisted nematic) method using a TFT panel is used, but the display method of the liquid crystal display device is not limited to this. The display method of the liquid crystal display device may be, for example, an STN (Super Twisted Nematic) method.

  An object of the present invention is to provide a liquid crystal display device that can be manufactured at a lower cost than a conventional liquid crystal display device using a double-sided flexible printed circuit board, such as a liquid crystal display device in which a semiconductor circuit is mounted on a substrate by COG technology. Useful as.

The perspective view of the liquid crystal display device concerning one embodiment of the present invention. The figure when disassembling the liquid crystal display device concerning one embodiment of the present invention. The liquid crystal display device which concerns on one Embodiment of this invention WHEREIN: The perspective view when developing the hard board | substrate provided in the back surface The liquid crystal display device which concerns on one Embodiment of this invention WHEREIN: The perspective view when developing the hard board | substrate provided in the back surface The perspective view which showed the other structural example of the liquid crystal display device which concerns on one Embodiment of this invention. A perspective view of a conventional liquid crystal display device A perspective view of a conventional liquid crystal display device The figure which showed the double-sided flexible printed circuit board of the conventional liquid crystal display device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 1st board | substrate 2 2nd board | substrate 3 Semiconductor circuit 4 Case 5 Single-sided flexible printed circuit board 6 Hard board 7 Light source 8 Reflective sheet 9 Light guide plate 10 1st circuit

Claims (5)

A liquid crystal display panel on which a semiconductor circuit is mounted on one main surface of the second substrate to be built and a wiring electrically connected to the semiconductor circuit is formed;
A case that includes a main surface having an opening and a side surface surrounding the main surface, and that protects the liquid crystal display panel;
A second circuit having a first main surface and a second main surface, having a first circuit on the first main surface, and electrically connected to the first circuit; A hard substrate disposed on the back surface of the case;
A light source mounted on the first main surface of the hard substrate;
A reflective portion that is disposed on the first main surface of the hard substrate and reflects the light of the light source;
A light guide unit that is sandwiched between the reflection unit and the main surface of the case and guides light from the light source and the reflection unit to the opening;
A flexible printed circuit board for internal connection, which is formed of a flexible material, and that forms wiring that electrically connects the second circuit and wiring provided on the second board only on one main surface When,
And the first circuit is provided outside the reflecting portion, and is provided in a region opposite to the region where the light source is provided across the central portion of the first main surface. apparatus.   The liquid crystal display device according to claim 1, further comprising a flexible printed circuit board for external connection for electrically connecting the second circuit and a circuit provided outside.   The liquid crystal display device according to claim 2, wherein the internal connection flexible substrate and the external connection flexible substrate are made of a common flexible material. The liquid crystal display device according to claim 2, wherein the flexible printed circuit board for internal connection and the flexible printed circuit board for external connection are attached adjacent to each other on the second main surface of the hard substrate.   The liquid crystal display device according to claim 1, wherein the first circuit includes a capacitor.

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