JP3995410B2 - Liquid crystal display - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display device provided with a tablet or the like on the front surface of a liquid crystal display cell.
[0002]
[Prior art]
In the field of conventional liquid crystal display devices, for example, not only are they installed and used in offices and homes as display devices, but also have remarkable applications to mobile devices such as electronic notebooks and portable information terminals. In these mobile devices, for example, when switching various functions such as calendar display, schedule display, and address book management, the functions can be switched by touching the tablet on the icon mark on which the desired function is displayed with a pen or the like. There is something to do.
[0003]
Alternatively, an operator can input a desired image by handwriting by drawing an image such as a character with a pen on a tablet.
Such a conventional liquid crystal display device 21 will be described with reference to FIGS. 6 and 7. A liquid crystal cell 22 includes a liquid crystal (not shown) sealed between a pair of insulating substrates 23 and 24 made of glass. Is formed. Such a liquid crystal cell 22 has a double-sided adhesive tape 27 affixed to the outer periphery thereof, and is fixed to the metal case 25 by the double-sided adhesive tape 27 when housed inside the metal case 25.
A flexible printed circuit board 26 connected to a driver IC (not shown) mounted to drive each electrode (not shown) of the lower board 24 is disposed at the end of the lower board 24. Yes.
[0004]
Further, the metal frame 25 is provided with a rectangular window portion 25a at the upper center, and the upper portion of the image display area of the liquid crystal cell 22 is released by the window portion 25a.
In addition, a double-sided adhesive tape 27 is affixed around the window portion 25 a on the upper surface of the metal plate 25, and the upper tablet 28 is fixed to the metal frame 25 by the double-sided adhesive tape 27.
The tablet 28 is provided with a plurality of electrodes (not shown) at the outer peripheral end.
[0005]
In such a conventional liquid crystal display device 21, a gap of a dimension G is formed between the tablet 28 and the liquid crystal cell 22, and the gap of the dimension G is the thickness of the double-sided adhesive tape 27 and the metal frame 25. For example, it is formed to be about 0, 4 to 0.6 mm.
Therefore, even if the tablet 28 is pressed and slightly distorted by a pen or the like, the distortion of the tablet 28 does not adversely affect the image display of the liquid crystal cell 22.
[0006]
[Problems to be solved by the invention]
As described above, since the conventional liquid crystal display device 21 has the double-sided adhesive tape 27 applied to the liquid crystal cell 22 and the metal frame 27, it takes time to apply the double-sided adhesive tape 27. The double-sided adhesive tape 27 had to be stored such that dust or the like adhered to it and the adhesive strength did not deteriorate.
[0007]
Since the liquid crystal cell 22 and the tablet 28 are fixed to the metal frame 25 with the double-sided adhesive tape 27, the liquid crystal display device 21 is attached to the set side (not shown) of an electronic notebook or portable information terminal device. In addition, when the metal frame 25 is twisted, the liquid crystal cell 22 is distorted, and display unevenness may occur in an image displayed on the liquid crystal cell 22.
Further, when distortion occurs in the tablet 28 due to the twist of the metal frame 25, interference fringes (Newton rings) are generated in the tablet 28, and the display screen of the liquid crystal cell 22 may not be normally recognized.
[0008]
Further, since the outer peripheral electrode (not shown) is not electrically shielded, the tablet 28 has a risk of malfunction if static electricity or the like is generated around it.
Further, a case (not shown) made of a resin material having a thickness exceeding 0, 6 mm is disposed on the outer peripheral portion of the metal frame 25, and the liquid crystal display device 21 is held in this case. As the weight increased, the outer shape increased.
The present invention solves the above-described problems and provides a liquid crystal device that can be assembled without using an adhesive such as a double-sided adhesive tape and that can prevent failures such as static electricity from the outside. It is the purpose.
[0009]
[Means for Solving the Problems]
As a first means for solving the above problems, a liquid crystal display device of the present invention comprises a liquid crystal cell and a tablet disposed on the front surface of the liquid crystal cell, and holds the liquid crystal cell to A liquid crystal cell unit having a first case capable of restricting movement and a second case capable of restricting movement of the tablet by holding the tablet, wherein the liquid crystal cell is incorporated in the first case. The tablet unit with the tablet incorporated in the second case is stacked, and a metal frame that can store the liquid crystal cell unit and the tablet unit in a stacked state is disposed . The lower part is released and the periphery is covered with a side plate, the upper part exposes the operation area of the tablet, and the outside of the tablet is outside the opening part. An edge portion is formed to cover the outer periphery, and the tablet unit and the liquid crystal cell unit in the stacked state can be accommodated therein, and the side plate is an engagement portion that can be snap-engaged with the first case. And the first case includes a first side wall that abuts on an outer peripheral portion of the liquid crystal cell and restricts the movement of the liquid crystal cell, and a bottom plate that covers a back surface of the liquid crystal cell, and the first side wall A hook portion that is snap-engageable with the engaging portion of the metal frame is formed on the outer peripheral portion of the metal frame, and the second case is in contact with the outer peripheral portion of the tablet to restrict the movement of the tablet. The liquid crystal cell unit and the tablet unit housed in the metal frame include a side wall and a crosspiece having a predetermined thickness that holds the tablet in contact with a back surface near the outer periphery of the tablet. Movement of, respectively has a structure that is a possible regulation.
[0010]
Further, as a second solving means for solving the above problem, the first side wall of the first case is provided with a plurality of first positioning holes on the front surface, and the second side wall of the second case is formed on the back surface. Provided with a first positioning pin that can be fitted into the first positioning hole, the first positioning pin fitted into the first positioning hole, and the liquid crystal cell unit and the tablet unit stacked on each other. did.
[0011]
Further, as a third means for solving the above problem , a front light unit is disposed between the liquid crystal cell unit and the tablet unit, and the front light unit is made of a transparent resin having a predetermined thickness. A liquid crystal cell unit, the front light unit, and the tablet unit. The liquid crystal cell unit, the front light unit, and the tablet unit And in a state of being stacked in the metal frame .
[0012]
Further, as a fourth means for solving the above-described problem, the third case is configured to restrict the movement of the light guide plate and the lighting device by contacting the outer periphery of the light guide plate and the lighting device. A side wall and a back portion of a predetermined thickness that holds the light guide plate and the lighting device in contact with a back surface near the outer periphery of the light guide plate, and the third side wall has the first positioning on the back surface. A second positioning pin that can be fitted into the hole is formed, a plurality of second positioning holes are provided on the front surface, the second positioning pin is fitted into the first positioning hole, and the first positioning hole is fitted with the first positioning pin. 4. The liquid crystal display device according to claim 2 , wherein the liquid crystal cell unit, the front light unit, and the tablet unit are stacked by fitting a positioning pin .
[0013]
Further, as a fifth solving means for solving the above problem, the tablet unit has a configuration in which a transparent sheet is disposed between the back surface of the tablet and the crosspiece of the second case .
[0014]
Further, as a sixth solving means for solving the above problem, the transparent sheet has a thickness of 0.2 mm or less .
[0015]
Further, as a seventh solving means for solving the above-described problem, the first and second cases are configured to use a molded case made of a resin material having a thickness of 0.6 mm or less .
[0017]
DETAILED DESCRIPTION OF THE INVENTION
The liquid crystal display device of the present invention will be described below with reference to the drawings. First, FIG. 1 is an exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention, and FIG. 2 is a cross-sectional view of an essential part of the liquid crystal display device according to the first embodiment of the present invention. 3 is an enlarged view of a main part for explaining the assembly of FIG. 2, FIG. 4 is an exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention, and FIG. 5 is a second embodiment of the present invention. FIG. 6 is an enlarged view of a main part for explaining the assembly of FIG. 5.
[0018]
The liquid crystal device 1 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 3. First, as shown in FIG. 2, a liquid crystal cell 2 includes a pair of upper and lower rectangular glass plates. The insulating substrates 2 and 3 are arranged to face each other, and a liquid crystal (not shown) is sealed between the pair of insulating substrates 3 and 4.
A polarizing plate (not shown) is attached to the upper surfaces of the pair of insulating substrates 3 and 4 in a state where liquid crystal is sealed.
In addition, a reflective member (not shown) is attached to the lower surface of the liquid crystal cell 2 which is the back surface of the liquid crystal cell 2, and external light incident on the liquid crystal cell 2 is reflected upward by the reflective member and emitted to the outside. It is like that.
As shown in FIG. 1, such a liquid crystal cell 2 has a flexible print connected to a driver IC 4a mounted on the end of the lower substrate 4 for driving each electrode (not shown) of the lower substrate 4. A substrate 4b is provided.
[0019]
Further, the first case 5 that can hold the liquid crystal cell 2 and restrict the movement of the liquid crystal cell 2 is made of a resin material and comes into contact with the outer peripheral portion of the liquid crystal cell 2 to restrict the movement of the liquid crystal cell 2. And a bottom plate 5 b that covers the back surface of the liquid crystal cell 2.
Further, a hook-like hook portion 5c that can be snap-engaged with an engaging portion 11d of a metal frame 11 described later is formed on the outer peripheral portion of the first side wall 5a.
Also, a plurality of first positioning holes 5d are formed in the upper front surface of the first side wall 5a shown in FIG. 3, and first positioning pins 8c of the second case 8 described later are formed in the first positioning holes 5d. It can be mated.
The liquid crystal cell 2 is assembled in the first case 5 as described above to constitute a liquid crystal cell unit 6 as shown in FIG.
[0020]
In addition, a transparent panel, that is, a so-called tablet 7 that can input an image such as a character by performing a switching operation with a pressure of a pen or the like is disposed on the front surface of the liquid crystal cell 2 in the figure. As shown in FIG. 1, the tablet 7 is formed in a rectangular shape that is substantially the same shape as the liquid crystal cell 2, and a plurality of electrodes (not shown) are formed on the outer peripheral end portion. The upper portion of the electrode is covered and insulated with a resin material such as a resist, and is connected to the flexible printed circuit board 7a.
In addition, an operation area (not shown) in which an image such as a character can be input by operating a pen or the like positioned on the tablet 7 is formed in an area surrounded by the electrodes at the outer peripheral edge. .
[0021]
The second case 8 that can hold the tablet 7 and restrict the movement of the tablet 7 is made of a resin material, contacts the outer periphery of the tablet 7 and restricts the movement, and the second side wall 8a. A crosspiece 8b having a predetermined thickness that holds the tablet 7 in contact with the back surface near the outer periphery is formed.
A thickness H of the crosspiece 8b is formed to be thin, for example, 0.4 mm. Therefore, when the tablet 7 is laminated on the liquid crystal cell 2, a gap of 0.4 mm is formed between the tablet 7 and the liquid crystal cell 2.
Due to the gap of this dimension H, even if the operation area (not shown) of the tablet 7 is pressed with a pen or the like and the tablet 7 is distorted, the back surface of the distorted tablet 7 does not contact the front surface of the liquid crystal cell 2. It has become.
[0022]
Further, as shown in FIG. 3, the second side wall 8 a of the second case 8 has a plurality of second positioning pins 8 c protruding from the back surface, and the second positioning pins 8 c are the first positioning holes of the first case 5. 5d can be fitted.
A tablet unit 9 as shown in FIG. 1 is configured by incorporating the tablet 7 in such a second case 8.
[0023]
As shown in FIG. 2, the tablet unit 9 includes a transparent sheet 10 having a thickness of 0.2 mm, for example, between the back surface of the tablet 7 and the crosspiece 8 b of the second case 8. For example, an icon mark or the like is printed on the transparent sheet 10 near the end.
A desired icon corresponding to the icon mark can be opened by pressing the tablet 7 on the icon mark with a pen.
Since the transparent sheet 10 is thin with a thickness of 0.2 mm, the tablet 7 can be incorporated into the second case 8 with or without the transparent sheet 10.
Therefore, it is possible to cope with variety with or without a transparent sheet without changing other components.
[0024]
Further, the positioning pin 8c of the second case 8 is fitted into the positioning hole 5d of the first case 5, and the liquid crystal cell unit 6 and the tablet unit 9 are laminated together, and the liquid crystal cell unit 6 and tablet unit in this laminated state are stacked. 9, the metal frame 11 is made of a stainless steel plate or the like, and is formed in a rectangular shape by drawing as shown in FIG.
The lower part of the metal frame 11 is opened and the periphery is covered with a side plate 11a, and an upper part 11b that exposes an operation region (not shown) that can be operated with a pen or the like of the tablet 7 and the upper part 11b. And an edge portion 11c that covers the outer periphery of the tablet 7 on the outer side.
[0025]
Further, the side plate 11 a is formed by punching a slit-like engaging portion 11 d that can be snap-engaged with the hook portion 5 c of the first case 5, and the liquid crystal cell unit 6 and the tablet unit in a stacked state are formed inside the metal frame 11. 9 can be stored.
In the liquid crystal display device 1 of the present invention, since the first case 5 and the second case 8 are formed by vacuum forming, the thickness of the side walls 5a and 8a, the bottom plate 5b, and the crosspiece 8b is increased. Can be processed thinly to 0, 6 mm or less.
Therefore, the weight of the liquid crystal display device 1 of the present invention can be reduced, and the size of the outer shape can be made smaller than before even when the operation area is the same as the conventional one.
[0026]
The assembly of the liquid crystal display device 1 of the first embodiment having such a configuration will be described. First, the liquid crystal cell 2 is assembled in the first case 5 to assemble the liquid crystal cell unit 6. Next, the transparent sheet 10 is assembled on the crosspiece 8 b of the second case 8, and the tablet 7 is assembled from above the transparent sheet 10 to assemble the tablet unit 9.
Next, the positioning pin 8c of the second case 8 is fitted into the positioning hole 5d formed in the first case 5 of the liquid crystal cell unit 6, and the liquid crystal cell unit 6 and the tablet unit 9 are stacked on each other.
[0027]
Next, when the metal frame 11 is placed over the liquid crystal cell unit 6 and the tablet unit 9 in the stacked state and the edge 11c of the metal frame 11 is pressed downward in the figure, the engaging portion 11d formed on the side plate 11a is the first. The liquid crystal cell unit 6 and the tablet unit 9 are housed in the metal frame 11 and the movement is restricted, and the assembly of the liquid crystal display device 1 is completed.
[0028]
In the liquid crystal display device 1 assembled in this way, the metal frame 11 is snap-engaged with the first case 5 and the movement of the liquid crystal cell unit 6 and the tablet unit 9 is restricted. Since each member is not fixed to the metal frame 11 with the double-sided adhesive tape, each member can move by a minute dimension.
Therefore, even when the metal frame 11 is twisted when the liquid crystal display device 1 of the present invention is attached to a set such as a mobile phone, the metal moves 11 with a minute movement of each member. By absorbing the twist of the frame 11, a load such as a twist stress is not transmitted to the liquid crystal cell unit 6 and the tablet unit 9.
[0029]
Further, since the tablet unit 9 housed in the metal frame 11 is shielded by covering the outer peripheral electrode (not shown) with the edge 11c of the metal frame 11, static electricity is generated in the vicinity of the liquid crystal display device 1 of the present invention. Even if something happens, this malfunction due to static electricity can be prevented.
[0030]
Moreover, the liquid crystal display device 12 of the 2nd Embodiment of this invention is demonstrated based on FIGS. Since the liquid crystal cell unit 6 and the tablet unit 9 used in the liquid crystal display device 12 of the second embodiment are the same as those used in the liquid crystal display device 1 of the first embodiment, The same numbers as those in the embodiment are attached and detailed description is omitted.
[0031]
The liquid crystal display device 12 according to the second embodiment of the present invention is assembled by sandwiching the front light unit 16 between the liquid crystal cell unit 6 and the tablet unit 9 described in the first embodiment. Yes.
The front light unit 16 is made of a transparent resin having a predetermined thickness, and the light guide plate 13 is formed in a rectangular shape that is substantially the same shape as the liquid crystal cell 2, and an illumination device attached to one end of the light guide plate 13. 14.
[0032]
The illumination device 14 has a light source composed of an LED or the like, and a reflection plate (not shown) is disposed around the light source to reflect the light from the light source toward the light guide plate 13.
Further, the light guide plate 13 and the lighting device 14 integrated with an adhesive (not shown) or the like are incorporated in a third case 15 made of a resin material to constitute a front light unit 16.
The third case 15 is in contact with the outer periphery of the light guide plate 13 and the illumination device 14 with the illumination device 14 attached to one end thereof, and a third side wall that regulates the movement of the light guide plate 13 and the illumination device 14. 15a is formed.
The third case 15 is in contact with the back surface of the light guide plate 13 and the illumination device 14 near the outer peripheral portion, and a crosspiece 15b having a predetermined thickness for holding the light guide plate 13 and the illumination device 14 is formed. .
[0033]
Further, as shown in FIG. 6, the third side wall 15 a of the third case 15 has a plurality of second positioning pins 15 c protruding from the back surface, and the second positioning pins 15 c are the first positioning holes of the first case 5. 5d can be fitted.
A plurality of second positioning holes 15d are provided on the front surface of the third side wall 15a, which is the upper part of the figure, and the first positioning pins 8c of the second case 8 can be fitted into the second positioning holes 15d. Yes.
[0034]
Then, the second positioning pin 15c is fitted into the first positioning hole 5d, the first positioning pin 8c is fitted into the second positioning hole 15d, and the liquid crystal cell unit 6, the front light unit 16, and the tablet unit 9 are connected. Positioning is possible in a stacked state.
[0035]
In addition, a metal frame 17 that houses the liquid crystal cell unit 6, the front light unit 16, and the tablet unit 9 in a stacked state is disposed.
The metal frame 17 is different from the metal frame 11 described in the first embodiment only in height, and the material and shape are the same. That is, the metal frame 17 has a side plate 17a, a rectangular opening 17b at the top, and an edge 17c formed outside the opening 17b. Further, a plurality of slit-like engaging portions 17d are punched and formed on the side plate 17a.
[0036]
When the liquid crystal display device 12 of the second embodiment is used at night when the surroundings are dark, the illumination device 14 is turned on so that the light enters the light guide plate 13 and the liquid crystal cell 2 It is possible to read display images such as characters.
The liquid crystal display devices 1 and 12 according to the first and second embodiments can be easily assembled with or without the front light unit 16 simply by replacing the metal frames 11 and 17 having different heights. .
[0037]
【The invention's effect】
In the liquid crystal display device of the present invention, a tablet unit in which a tablet is incorporated in a second case is laminated on a liquid crystal cell unit in which a liquid crystal cell is incorporated in a first case, and the liquid crystal cell in a state in which the tablets are laminated. Since the unit and the tablet unit are housed and a metal frame that can regulate each movement is arranged, each member is housed in the metal frame in a stacked state, and conventional double-sided adhesive tape etc. It is possible to provide a liquid crystal display unit excellent in assemblability that can be assembled without using it.
Even when a twist occurs in the metal frame when the liquid crystal display device is attached to a set such as a cellular phone, a load such as a twist stress is not transmitted to the liquid crystal cell unit and the tablet unit. Therefore, it is possible to provide a high-performance liquid crystal display device that does not cause display irregularities in the liquid crystal cell or defects such as Newton rings in the tablet.
[0038]
In addition, the metal frame can accommodate the tablet unit and the liquid crystal cell unit in a laminated state inside, and the side plate has an engaging portion that can be snap-engaged with the first case, so that the engaging portion formed in the metal case Can be assembled by snap-engaging with the first case.
In addition, when the liquid crystal display device of the present invention is attached to a set such as a mobile phone, even if the metal frame is twisted, each member can be moved minutely by snap engagement, so the liquid crystal cell unit, Also, loads such as torsional stress are not transmitted to the tablet unit.
Therefore, it is possible to provide a high-performance liquid crystal display device that does not cause display irregularities in the liquid crystal cell or defects such as Newton rings in the tablet.
Further, since the edge of the metal frame covers the electrode portion on the end face of the tablet, even if static electricity or the like is generated in the surroundings, malfunction does not occur due to this static electricity.
[0039]
The first case has a first side wall that abuts on the outer periphery of the liquid crystal cell and restricts the movement of the liquid crystal cell, and a bottom plate that covers the back surface of the liquid crystal cell. Since the hook portion that can be snap-engaged is formed on the engaging portion of the frame, the hook portion can be assembled simply by snap-engaging the engaging portion of the metal frame.
[0040]
The second case has a second side wall that abuts on the outer periphery of the tablet to restrict the movement of the tablet, and a crosspiece having a predetermined thickness that abuts on the back surface near the outer periphery of the tablet and holds the tablet. Therefore, a gap of a predetermined dimension can be formed between the liquid crystal cell and the tablet at the crosspiece. Therefore, even when the tablet is pressed and distorted with a pen or the like, a high-performance liquid crystal display device in which the tablet does not come into contact with the liquid crystal cell can be provided.
[0041]
Further, since the first positioning pin is fitted into the first positioning hole and the liquid crystal cell unit and the tablet unit are stacked on each other, the liquid crystal cell unit and the tablet unit before being assembled in the metal frame can be reliably positioned. And a liquid crystal display device excellent in assemblability can be provided.
[0042]
In addition, a front light unit is disposed between the liquid crystal cell unit and the tablet unit, and the liquid crystal cell unit, the front light unit, and the tablet unit are stacked and stored in a metal frame. It is easy to assemble the unit and the tablet unit into the metal frame.
[0043]
Further, the second positioning pin of the third case is fitted into the first positioning hole of the first case, the first positioning pin of the second case is fitted into the second positioning hole of the third case, and the liquid crystal cell unit Since the front light unit and the tablet unit are laminated, it is possible to provide a liquid crystal display device that can be assembled without using a double-sided adhesive tape or the like and has excellent assemblability.
[0044]
In addition, since the tablet unit has a transparent sheet disposed between the back of the tablet and the crosspiece of the second case, the tablet on the icon mark is pushed with a pen by writing an icon mark or the like on the transparent sheet. Therefore, a desired icon can be opened and operability is good.
[0045]
Further, since the transparent sheet is 0.2 mm or less, it can be assembled without changing other parts, and it is easy to handle variety with and without the transparent sheet.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a liquid crystal display device according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of a main part of the liquid crystal display device according to the first embodiment of the present invention.
FIG. 3 is an enlarged view of a main part for explaining the assembly of FIG. 2;
FIG. 4 is an exploded perspective view of a liquid crystal display device according to a second embodiment of the present invention.
FIG. 5 is a cross-sectional view of a main part of a liquid crystal display device according to a second embodiment of the present invention.
6 is an enlarged view of a main part for explaining the assembly of FIG. 5. FIG.
FIG. 7 is an exploded perspective view of a conventional liquid crystal display device.
FIG. 8 is a cross-sectional view of a main part of a conventional liquid crystal display device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Liquid crystal display device 2 of 1st Embodiment Liquid crystal cell 3 Insulating substrate 4 Insulating substrate 5 1st case 5a 1st side wall 5b Bottom plate 5c Hook part 5d 1st positioning hole 6 Liquid crystal cell unit 7 Tablet 8 2nd case 8a 1st 2 side wall 8b crosspiece 8c first positioning pin 9 tablet unit 10 transparent sheet 11 metal frame 11a side plate 11b opening 11c edge 11d engaging portion 12 liquid crystal display device 13 of second embodiment light guide plate 14 illuminating device 15 first 3 Case 16 Front light unit 17 Metal frame

Claims (7)

A liquid crystal cell and a tablet disposed in front of the liquid crystal cell, a first case capable of holding the liquid crystal cell and restricting the movement of the liquid crystal cell; and holding the tablet to control the movement of the tablet. A second case that can be regulated, and a tablet unit in which the tablet is incorporated in the second case is stacked on the liquid crystal cell unit in which the liquid crystal cell is incorporated in the first case. A metal frame capable of storing the liquid crystal cell unit and the tablet unit in a stacked state is disposed, and the metal frame is opened at the bottom and covered with a side plate, and the upper is an operation area of the tablet. An opening to be exposed and an edge that covers the outer periphery of the tablet outside the opening are formed, and the tablet in the stacked state is formed inside. The side plate has an engaging portion that can be snap-engaged with the first case, and the first case is in contact with an outer peripheral portion of the liquid crystal cell. A first side wall for restricting movement of the liquid crystal cell; and a bottom plate for covering a back surface of the liquid crystal cell, and the outer peripheral portion of the first side wall can be snap-engaged with the engagement portion of the metal frame. A hook portion is formed, and the second case holds the tablet in contact with a second side wall that contacts the outer peripheral portion of the tablet to restrict movement of the tablet and a back surface near the outer peripheral portion of the tablet. Having a crosspiece with a predetermined thickness,
The liquid crystal display device wherein said liquid crystal cell unit housed in the metal frame and the tablet unit, each movement, characterized in that it enabled regulations. The first side wall of the first case has a plurality of first positioning holes on the front surface, and the second side wall of the second case has a first positioning pin that can be fitted in the first positioning hole on the back surface. The liquid crystal display device according to claim 1 , wherein the liquid crystal cell unit and the tablet unit are stacked on each other by providing the first positioning pin in the first positioning hole . A front light unit is disposed between the liquid crystal cell unit and the tablet unit. The front light unit includes a light guide plate made of a transparent resin having a predetermined thickness and an illumination attached to one end of the light guide plate. And a third case incorporating the light guide plate and the illumination device, wherein the liquid crystal cell unit, the front light unit, and the tablet unit are stacked and stored in the metal frame. The liquid crystal display device according to claim 1 or 2. The third case is in contact with the light guide plate and a third side wall that restricts movement of the light guide plate and the lighting device by contacting the light guide plate and the outer peripheral portion of the lighting device, and a back surface near the outer periphery of the light guide plate. The third side wall forms a second positioning pin that can be fitted in the first positioning hole on the back surface, and a front surface on the front surface. A plurality of second positioning holes are provided, the second positioning pins are fitted into the first positioning holes, the first positioning pins are fitted into the second positioning holes, and the liquid crystal cell unit and the front light The liquid crystal display device according to claim 2 , wherein the unit and the tablet unit are stacked . The tablet unit, a liquid crystal display device according to any one of claims 1 to 4, characterized in that disposed a transparent sheet between the crosspieces of the second casing and the back of the tablet. The liquid crystal display device according to claim 5 , wherein the transparent sheet is formed to have a thickness of 0.2 mm or less . Said first, second case, the liquid crystal display device according to any one of claims 1 to 6, characterized by using a molded case formed the thickness from the resin material 0.6 mm.

Images