JP3911954B2 - ELECTRO-OPTICAL DEVICE, MANUFACTURING METHOD THEREOF, AND ELECTRONIC DEVICE - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electro-optical device and a method for manufacturing the same, and more particularly to an electronic apparatus using the electro-optical device, and more particularly, to an electro-optical device housing structure in which an electro-optical panel is housed in a case body.
[0002]
[Prior art]
In general, in a conventional liquid crystal display device, a liquid crystal panel is formed by bonding two panel substrates made of a transparent material such as glass or plastic through a sealing material and enclosing a liquid crystal therebetween. The panel is held and fixed in various ways. For example, by placing this liquid crystal panel on a light guide portion of a lower case member having a light guide function made of a transparent acrylic resin or the like, and covering the upper case member made of a stainless steel plate or the like thereon, In some cases, the liquid crystal panel is accommodated in a case body composed of a lower case member and an upper case member. In this case, the lower case member and the upper case member engage the convex portion and the concave portion, engage the hook and the stepped portion, or bend the claw-like portion provided in one case member and They are fixed to each other by a method such as engaging with a stepped portion. These engagement structures are usually provided on the side surfaces of the lower case member and the upper case member on the side surface side of the liquid crystal panel.
[0003]
In addition, the upper case member is covered with the liquid crystal panel placed on the lower case member, and an engagement portion such as a hook formed so as to protrude downward from the side surface portion of the upper case member is formed on the circuit board. There is also a method of fixing a liquid crystal panel accommodated in a case body on a circuit board by engaging with an engaged portion such as a hole.
[0004]
[Problems to be solved by the invention]
However, in the above conventional liquid crystal device, the side surface portion of the lower case member and the side surface portion of the upper case member are overlapped in the thickness direction, and the lower case member and the upper case member are fixed by the engagement structure provided on both side surface portions. Or by fixing the engaging part provided on the side part of the upper case member directly to the circuit board, so that there is enough space in the thickness direction for the engaging structure. It is difficult to reduce the thickness of the entire liquid crystal device, and it is necessary to provide an engagement structure on the side surface, so that it is difficult to reduce the planar dimension of the case body. is there.
[0005]
In particular, due to the recent progress in miniaturization of various devices such as portable devices, there has been a strong demand for miniaturization and thinning of liquid crystal devices, and the thickness of the panel substrate constituting the liquid crystal panel has also decreased rapidly. Tend to. Accordingly, the liquid crystal device is also required to be thin, and further, the width of the protrusion outside the liquid crystal display region is required to be reduced (narrowed frame). Therefore, depending on the structure of the case body that accommodates the liquid crystal panel. The dimensions of liquid crystal devices are greatly affected.
[0006]
Therefore, the present invention solves the above-mentioned problems, and the problem is that in various liquid crystal devices and other various electro-optical devices, by changing the engagement method of the case body that houses the electro-optical panel, An object of the present invention is to provide an electro-optical panel housing structure that does not hinder downsizing and thinning.
[0007]
[Means for Solving the Problems]
The electro-optical device manufacturing method of the present invention includes an electro-optical panel in which an electro-optical material is disposed on a substrate, a first case member that supports the electro-optical panel from the back side, and the electro-optical panel from the front side. A method of manufacturing an electro-optical device including a second case member to be supported, wherein the first case member and the second case member include the first case member and the second case member in a state in which the electro-optical panel is accommodated. A contact surface area is provided that can contact each other with the second case member, and a convex portion is formed on one of the first case member and the second case member in the corresponding contact surface area, and the other An opening is formed at a position corresponding to the convex portion in the direction extending in a predetermined direction, and the first case member is in contact with the electro-optical panel on one side of the predetermined direction. Set up The second case member is provided with a second contact portion that contacts the electro-optical panel on the other side in the predetermined direction, and the electro-optical panel is inserted into the opening through the convex portion. After being accommodated in the first case member and the second case member, the first case member and the second case member are slid relative to each other in the predetermined direction, and the electro-optical panel is moved to the first contact portion. In addition, the first case member and the second case member are fixed by deforming the tip of the convex portion while being sandwiched between the second contact portions.
[0008]
According to the present invention, the convex portion and the opening are formed in the contact surface area where the first case member and the second case member are in contact with each other, and both the case members are formed by deforming the tips of the convex portions. Since it is fixed, it is not necessary to secure the thickness of the case body for the engagement structure other than the protruding amount of the deformed convex part, and it is not necessary to provide the engagement structure on the side part of the case body. Thus, an electro-optical device that can be reduced in size and thickness can be manufactured. Moreover, since the opening is formed to extend in a predetermined direction, the first case member and the second case member can be slid in a predetermined direction with the convex portion passing through the opening. Furthermore, each of the first case member and the second case member is provided with a first contact portion and a second contact portion that are in contact with both sides of the electro-optical panel in a predetermined direction. Therefore, the electro-optical panel can be positioned in a predetermined direction by sliding both case members in a state where the convex portion is passed through the opening. Since both the case members can be fixed by deforming the tips of the convex portions with the electro-optical panel positioned in a predetermined direction, the electro-optical device can be easily assembled.
[0009]
In this invention, you may deform | transform the front-end | tip of the said convex part so that the surface of the front-end | tip of this convex part may become a convex curve shape. According to this means, the stress received by the tip of the convex portion can be dispersed on the surface of the convex curved surface, so that the engagement strength can be increased while reducing the protruding amount of the convex portion after deformation.
[0010]
In the present invention, the tip of the convex portion may be deformed so that the tip of the convex portion is hemispherical. According to this means, the stress received by the tip of the convex portion can be dispersed toward the entire hemispherical surface.
[0011]
In the present invention, the tip of the convex portion may be deformed by bringing a molding member having a molding concave portion having a predetermined shape into contact with the tip of the convex portion. According to this means, the tip of the convex portion can be easily deformed into a shape corresponding to the concave portion for molding by heating the concave portion for molding or applying vibration from the concave portion for molding.
[0012]
In this invention, you may deform | transform the front-end | tip of the said convex part by giving a vibration to the front-end | tip of the said convex part. According to this means, since it is not necessary to apply a large stress or to heat, the possibility of damaging the electro-optical panel can be reduced.
[0013]
The electronic apparatus of the present invention includes the electro-optical device manufactured by the above manufacturing method.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the electro-optical device according to the invention will be described in detail with reference to the accompanying drawings. Each of the embodiments described below shows a specific example of a liquid crystal device using a liquid crystal as an electro-optic material. However, the present invention is not limited to the liquid crystal device, but includes various devices such as an electroluminescence device and a plasma display device. This can be applied to the electro-optical device.
[0019]
[First Embodiment]
1 is a plan view showing the appearance of the liquid crystal display device according to the first embodiment of the present invention, FIG. 2 is a right side view showing the appearance of the first embodiment, and FIG. 3 is a longitudinal section of the first embodiment. FIG. 4 is a plan view (a cross-sectional view taken along the line III-III in FIG. 1), and FIG. 4 is a plan view showing the shape of the lower case member.
[0020]
As shown in FIG. 3, the present embodiment includes a liquid crystal panel 10 in which liquid crystal (not shown) is sealed between a panel substrate 11 made of glass or the like and the panel substrate 12 with a sealing material. The liquid crystal panel 10 is accommodated in a case body constituted by a lower case member 20 made of a transparent resin such as an acrylic resin and an upper case member 30 made of a stainless steel plate or the like. The panel substrate 11 of the liquid crystal panel 10 is provided with a substrate overhanging portion 11a that projects outward from the panel substrate 12, and is pulled out from the liquid crystal sealing region of the liquid crystal panel 10 on the surface of the substrate overhanging portion 11a. A wiring pattern (not shown) is formed. An integrated circuit chip 14 that is a liquid crystal driving circuit is mounted on the wiring pattern. In addition, the wiring pattern has an input terminal (not shown) formed at the end of the substrate overhanging portion 11a, and a connector 21 described later is in conductive contact with the input terminal.
[0021]
As shown in FIG. 3 and FIG. 4, the lower case member 20 has a rectangular planar shape that is slightly larger than the liquid crystal panel 10 and has a rectangular accommodating recess 20 a that receives the liquid crystal panel 10. A penetrating connector housing hole 20b is formed in the peripheral edge of the housing recess 20a. A connector 21 is fitted in the connector housing hole 20b.
[0022]
A portion of the lower case member 20 that constitutes the bottom surface of the housing recess 20a on which the liquid crystal panel 10 is placed serves as a light guide portion 22, and light introduced from the end surface portion 22b to the outer surface 22a of the light guide portion 22 is provided. Is formed in a concavo-convex shape for uniformly discharging to the front side, that is, the liquid crystal panel side (the upper side in FIG. 3). A white reflector or the like may be attached in place of the uneven shape. When the liquid crystal display device of the present embodiment is installed on the end face portion 22b, LEDs (light emitting diodes) mounted on a circuit board (not shown) are arranged to face each other.
[0023]
As shown in FIG. 4, a frame-shaped portion 23 along one side of a rectangular outer edge and a frame-shaped portion 24 whose one end is in contact with the frame-shaped portion 23 are formed around the housing recess 20 a in the lower case member 20. Has been. On the side facing the frame-shaped part 24, a projecting part 25 projecting outwardly in the form of a tongue and a pair of elastic arm parts 26, 26 provided so as to face each other on both sides of the projecting part 25 are formed. Has been. The elastic arm portion 26 has a shape extending along the outer edge with respect to the light guide portion 22, presses the side surface of the liquid crystal panel 10 accommodated in the accommodating recess 20 a by the tip portion, and is provided on the opposite side. The liquid crystal panel 10 is configured so as to be pressed against the frame-like portion 24 so as to position the liquid crystal panel 10 in the horizontal direction of the drawing in the housing recess 20a. The front surface portions of the frame-like portions 23, 24, and 26 surrounding the housing recess 20a serve as contact surface regions that contact the upper case member 30 even when the liquid crystal panel 10 is housed in the housing recess 20a. .
[0024]
The frame portion 23 of the lower case member 20, the end portion 24 a that widens at the end of the frame portion 24, and the end portion that widens at the base of the elastic arm portion 26, constituting this contact surface area. A plurality of shaft-like convex portions 27 extending to the front surface side (the upper side in the drawing shown in FIG. 3) are formed on each front surface portion of 26a. These convex portions 27 initially project straightly upward from the respective front surface portions as shown in FIG.
[0025]
Further, the lower case member 20 is formed with an inner side surface 23a that faces the accommodating recess 20a in the frame-like portion 23, and the inner side surface 23a comes into contact with the end surface of the substrate overhanging portion 11a of the liquid crystal panel 10, and the liquid crystal panel 10 Is to be positioned.
[0026]
On the other hand, the upper case member 30 is formed by bending a plate material by pressing or the like, and as shown in FIG. 1, a display window portion 30a having a rectangular shape is disposed at the center. An effective display area of the liquid crystal panel is recognized from the display window. A cover plate 31 having a slightly wider width is formed above the display window 30a (the portion covering the substrate overhanging portion 11a of the liquid crystal panel). A liquid crystal panel is formed at the left and right ends of the display window 30a. Folded edges 32 and 33 are provided that are bent to the side of the liquid crystal panel so as to cover the left and right sides of the liquid crystal panel. In addition, a bent edge 34 that is bent toward the side surface of the liquid crystal panel is provided on the opposite side of the display window 30a as viewed from the cover plate portion 31 so as to cover the lower surface of the liquid crystal panel. The inner surface 34a of the bent edge 34 is in contact with the end of the liquid crystal panel 10 on the opposite side to the substrate overhanging portion 11a (the lower surface of the liquid crystal panel).
[0027]
A plurality of openings 30 b are formed around the display window 30 a of the upper case member 30. These openings 30b are respectively formed at positions corresponding to the protrusions 27 formed in the lower case member 20 and are sized to pass the protrusions 27.
[0028]
In the present embodiment, first, polarizing plates 11p, 12p, and other retardation films, reflection films, and the like are attached on the outer surfaces of the panel substrates 11, 12 of the liquid crystal panel 10, and then the liquid crystal panel 10 is moved down. The housing member 20 is housed in the housing recess 20a. Then, the upper case member 30 is placed over the liquid crystal panel 10, and the convex portions 27 of the lower case member 20 are respectively inserted into the openings 30 b of the upper case member 30 as shown in FIG. Set as follows. At this time, an end portion (upper side surface of the liquid crystal panel) of the substrate overhanging portion 11a in the liquid crystal panel 10 abuts on the inner side surface 23a, and an end portion of the liquid crystal panel 10 opposite to the substrate overhanging portion 11a is the inner surface. Both case members are pressed against the liquid crystal panel 10 so as to be in contact with 34a. That is, the liquid crystal panel is positioned in the vertical direction of the liquid crystal panel (the vertical direction in FIG. 1) by the lower case member 20 and the upper case member 30.
[0029]
The liquid crystal panel 10 can be incorporated into the case body by various methods other than the above. For example, after attaching the liquid crystal panel 10 to the inner surface of the upper case member 30 with a double-sided tape, an adhesive, or the like, the upper case member 30 and the liquid crystal panel 10 may be set in the lower case member 20. Further, the liquid crystal panel 10 may be bonded onto the inner surface of the light guide portion 22 of the lower case member 20.
[0030]
Next, as shown in FIG. 5B, the molding recess 40a is brought into contact with the tip of the projection 27 using the molding member 40 provided with a semispherical molding recess 40a at the tip, and the molding member 40 is brought into contact. Apply ultrasonic vibration to. The ultrasonic vibration is transmitted from the molding concave portion 40a to the convex portion 27, and the convex portion 40 is deformed by melting or softening due to vibration, and a hemispherical head portion 27a is formed following the shape of the molding concave portion 40a. The At this time, since the inner diameter D of the molding recess 40a is formed larger than the inner diameter of the opening 30b, the head 27a has an outer diameter larger than the inner diameter of the opening 30b. By deforming the convex portion by ultrasonic vibration in this way, it is not necessary to apply large stress or heat to the case body, so that the possibility of damaging the liquid crystal panel can be reduced.
[0031]
Thus, when the head portion 27a of the convex portion 27 is molded, as shown in FIGS. 1 and 2, the second case member 30 is fixed to the first case member 20 by the head portion 27a. As a result, the liquid crystal panel 10 is held in a state of being positioned inside the case body including the first case member 20 and the second case member 30.
[0032]
In the present embodiment, the convex portion 27 formed on the surface of the frame-like portion 23 of the lower case member 20 is passed through the opening portion 30 b formed in the cover plate portion 31 of the upper case body 30, and the convex portion 27. Since the lower case member 20 and the upper case member 30 are fixed by crimping the tip, it is necessary to provide an engagement structure such as a hook extending in the thickness direction of the case member at the side surface portion of each case member. Accordingly, the thickness of the case member itself can be reduced in accordance with the thinned liquid crystal panel, and the amount of protrusion of the case member to the side can be reduced and the size can be reduced. Moreover, since both case members are being fixed by the engagement of the convex part 27 and the opening part 30b by caulking, it is possible to reduce the thickness of the engaging part itself by limiting the protrusion amount of the convex part 27. it can. Therefore, it is possible to form a case body structure that fully utilizes the downsizing and thinning of the liquid crystal panel, and the liquid crystal display device as a whole can be easily downsized and thinned.
[0033]
In particular, in the present embodiment, since the tip of the convex portion 27 is processed into a predetermined predetermined shape by the molding member 40, the strength of the crimped portion is stabilized, and the hemispherical (convex curved surface) head 27a is formed. Since the stress applied to the caulking portion can be dispersed over the entire hemispherical surface (convex curved surface), the strength of the head 27a can be increased without increasing the thickness and the amount of overhang. Can be improved. On the other hand, when the convex head shape is formed into a flat plate shape, for example, the stress received from the upper case member 30 is concentrated on the root portion of the protruding portion of the head. Compared to the case of the head portion 27a, the root portion is likely to break.
[0034]
[Second Embodiment]
Next, a liquid crystal device according to a second embodiment of the invention will be described with reference to FIGS. This embodiment includes a structure in which the same liquid crystal panel 10 as that of the first embodiment described above is accommodated in a case body composed of a lower case member 40 and an upper case member 50 that are basically the same as those of the first embodiment. ing. The lower case member 40 is provided with a frame-shaped portion 43. The frame-shaped portion 43 is formed with an inner side surface 43a configured to come into contact with the end portion of the liquid crystal panel 10 as in the first embodiment. Yes. The upper case member 50 is provided with a display window portion 50a, and an end portion of the upper case member 50 is provided with a bent edge portion 54 similar to that of the first embodiment. The inner surface 54 a is configured to contact the other end of the liquid crystal panel 10.
[0035]
The lower case member 40 is provided with frame-like portions 43, 44, 45 that constitute the contact surface area similar to that of the first embodiment, and the front surface portion of the frame-like portion 43 and the end portion of the frame-like portion 44. Convex portions 47 are formed on the front surface portion of 44a and the front surface portion of the end corner portion 45a of the frame-shaped portion 45, respectively. On the other hand, the upper case member 50 is formed with an opening 50 b corresponding to the convex portion 47. The opening 50b of the present embodiment has an oval shape extending in the illustrated vertical direction (that is, the direction in which the liquid crystal panel 10, the inner side surface 43a, and the inner surface 54a abut).
[0036]
In the present embodiment, initially, the lower case member 40 and the upper case member 50 are not fixed to each other, and therefore the liquid crystal panel 10 is not positioned in the vertical direction in the figure in the case body as shown in FIG. As described above, the lower case member 40 and the upper case member 50 are slightly displaced from each other in the illustrated vertical direction (that is, the distance between the inner side surface 43a and the inner surface 54a is larger than the vertical width of the liquid crystal panel 10 in the illustrated vertical direction). Even in the enlarged state, the convex portion 47 can be inserted through the extended opening 50b. That is, since the opening 50b is formed in a shape extending in the vertical direction in the figure, the margin of the fitted state between the lower case member 40 and the upper case member 50 can be increased, and as a result, assembly work can be performed. Can be easily.
[0037]
Next, from the state shown in FIG. 6, the lower case member 40 is slid relatively upward in the drawing and the upper case member 50 is relatively slid downward in the drawing, so that the liquid crystal panel 10 has an inner surface 43a and an inner surface as shown in FIG. 54a. At this time, the liquid crystal panel 10 is positioned by the case body. In this state, while maintaining the positional relationship between the lower case member 40 and the upper case member 50, as described in the first embodiment, the tip of the convex portion 47 is deformed, and as shown in FIG. A head 47a wider than the width of 50b is formed, and the projection 47 and the opening edge of the opening 50b are completely fixed.
[0038]
In the present embodiment, the lower case member 40 and the upper case member 50 are combined with each other by forming the opening 50b in an extended shape (that is, in a state where the convex portion 47 is inserted through the opening 50b). The liquid crystal panel 10 can be positioned by sliding both case members in a predetermined direction, and the tip of the convex portion 47 is deformed in this positioning state to deform the lower case member 40 and the upper case member 50. The liquid crystal panel 10 can be easily attached to the case body, and the liquid crystal panel 10 can be positioned reliably regardless of the dimensional accuracy of the components. Both case members can be reliably engaged and fixed in a state where the liquid crystal panel 10 is accurately positioned. The shape after the tip of the convex portion 47 is deformed is wider than the width of the opening 50b and only needs to be engaged with the opening 50b. However, as in the first embodiment. It is preferable to form a hemispherical head having a convex curved surface.
[0039]
The relationship between the convex portion and the opening portion can be variously changed. For example, as shown in FIG. 9, when an extended opening 70b corresponding to the protrusion 67 is provided, a part of the opening 70b has an inner diameter or width that is slightly larger than the outer diameter of the protrusion 67. While forming the wide part 70b-1, let the remaining part be the extension part 70b-2 which has a width | variety corresponding to the outer diameter of the convex part 67 substantially. At this time, when the upper case member provided with the opening 70b is fitted into the lower case member (not shown) provided with the convex portion 67, as shown in FIG. If the convex portion 67 is inserted into the portion 70b-1, the operation can be easily performed.
[0040]
In the case of assembling a liquid crystal display device provided with the convex portion 67 and the opening 50b, the convex portion 67 is inserted into the wide portion 70b-1 as shown in FIG. As shown in FIG. 9, the tip of the convex portion 67 is deformed to form a head portion 67a, and then, as shown by arrows in FIG. It is slid relatively until it will be in the state positioned by the case member. At this time, the convex part 67 enters the extension part 70b-2 from the wide part 70b-1, and the sliding direction is regulated by the extension part 70b-2.
[0041]
In addition, the convex part 67 and the opening part 70b are fitted similarly to the method shown in 2nd Embodiment, without performing the engagement procedure of said convex part 67 and the opening part 70b by the method shown in FIG. In this state, the two case members may be slid relative to each other first so that the liquid crystal panel is positioned, and then the tip of the convex portion 67 is deformed to form the head 67a.
[0042]
Note that the electro-optical device and the manufacturing method thereof according to the present invention are not limited to the illustrated examples described above, and it is needless to say that various modifications can be made without departing from the gist of the present invention. For example, the lower case member and the upper case member are not limited to those provided exclusively for the case member, and may be, for example, a part of a circuit board or a part of a device case body. Also good. In addition, each case member is not limited to a single member, and may be constituted by a plurality of parts. For example, the lower case member may be constituted by a base and a light guide plate.
[0043]
[Third Embodiment]
Next, a structural example of an electronic apparatus incorporating the above-described liquid crystal display device will be described as a third embodiment with reference to FIG. This embodiment is a mobile phone. On the outer surface of the outer case 101, there are an operation unit 102 in which a large number of operation buttons are arranged, an antenna 103 formed so as to be freely movable, a sound generation unit 104, and a sound detection unit 105. And a display unit 106 are provided.
[0044]
The circuit board 1 is installed inside the exterior case 101, and the liquid crystal panel 10 is mounted on the circuit board 1 in a state where the liquid crystal panel 10 is accommodated in the lower case member 20 and the upper case member 30. The liquid crystal display area of the liquid crystal panel 10 is configured to be visible on the display unit 106. A communication circuit is formed on the circuit board 1 and operation buttons arranged in the operation unit 102 are mounted. A speaker element corresponds to the sound detection unit 105 at a position corresponding to the sound generation unit 104. A microphone element is mounted at each position, and a microprocessor unit (MPU) including an arithmetic processing circuit and a memory element for realizing various functions is mounted.
[0045]
In the case of the mobile phone 100 of the present embodiment, for example, the lower case member 20 may be configured to extend from the end of the display unit 106 toward the operation unit 102 so as to be used as the front panel of the mobile phone. Good. Further, the upper case member 30 may be used as an outer panel of the display unit 106. By configuring the case member as a part of the panel exposed to the outside as described above, it is possible to reduce the thickness of the electronic device.
[0046]
【The invention's effect】
As described above, according to the present invention, the protrusion and the opening are formed in the contact surface area where the first case member and the second case member contact each other, and the tip of the protrusion is deformed. Since both the case members are engaged with each other and are fixed to each other, it is not necessary to secure the thickness of the case body for the engagement structure other than the protruding amount of the deformed convex portion. Since there is no need to provide an engagement structure on the side portion of the case body, the entire apparatus can be reduced in size and thickness.
[Brief description of the drawings]
FIG. 1 is a plan view of a liquid crystal display device which is a first embodiment of an electro-optical device according to the invention.
FIG. 2 is a right side view of the first embodiment.
3 is a longitudinal sectional view showing a state cut along the line III-III in FIG. 1 in the first embodiment. FIG.
FIG. 4 is a plan view of a lower case member in the first embodiment.
FIGS. 5A and 5B are explanatory views (a) and (b) illustrating a processing procedure for an engagement portion between a convex portion and an opening in the first embodiment. FIGS.
FIG. 6 is a plan view showing a state in which an upper case member is fitted to a lower case member with a liquid crystal panel interposed in a liquid crystal display device that is a second embodiment of the electro-optical device according to the invention. .
FIG. 7 is a plan view showing a state in which the liquid crystal panel is positioned by relatively sliding the lower case member and the upper case member in the second embodiment.
FIG. 8 is a plan view showing a state where the lower case member and the upper case member are engaged and fixed in the second embodiment.
FIGS. 9A to 9C are explanatory views (a) to (c) illustrating an engagement procedure using a modification example of a convex portion and an opening portion with respect to the second embodiment.
FIG. 10 is a diagram illustrating an electronic apparatus according to a third embodiment.
[Explanation of symbols]
10 LCD panel
11, 12 Panel substrate
11a Substrate overhang
20 Lower case member
20a receiving recess
21 Connector
22 Light guide
23 Frame-shaped part
23a inner surface
27 Convex
27a head
30 Upper case member
30a Display window
30b opening
34 Bending edge
34a inner surface
40 Molded parts
40a Recess for molding

Claims (6)

An electro-optical panel including an electro-optical material disposed on a substrate, a first case member that supports the electro-optical panel from the back side, and a second case member that supports the electro-optical panel from the front side. An optical device manufacturing method comprising:
The first case member and the second case member are provided with contact surface regions in which the first case member and the second case member can contact each other in a state in which the electro-optical panel is accommodated. In the contact area, a convex portion is formed on one of the first case member and the second case member, and an opening is formed extending in a predetermined direction at a position corresponding to the convex portion on the other side. Has been
The first case member is provided with a first contact portion that contacts the electro-optical panel on one side in the predetermined direction, and the second case member has the electro-optical panel on the other side in the predetermined direction. A second abutting portion that abuts on the
The electro-optical panel is accommodated in the first case member and the second case member through the convex portion through the opening, and then the first case member and the second case member are mutually connected in the predetermined direction. The first case member and the second case member are slid to deform the tip of the convex portion in a state where the electro-optical panel is sandwiched between the first contact portion and the second contact portion. A method of manufacturing an electro-optical device, comprising fixing.   2. The method of manufacturing an electro-optical device according to claim 1, wherein the tip of the convex portion is deformed so that the surface of the tip of the convex portion has a convex curved surface shape.   3. The method of manufacturing an electro-optical device according to claim 2, wherein the tip of the convex portion is deformed so that the tip of the convex portion is hemispherical.   4. The electricity according to claim 1, wherein the tip of the convex portion is deformed by bringing a molding member having a molding concave portion of a predetermined shape into contact with the tip of the convex portion. Manufacturing method of optical device.   5. The method of manufacturing an electro-optical device according to claim 1, wherein the tip of the convex portion is deformed by applying vibration to the tip of the convex portion. 6.   An electronic apparatus comprising the electro-optical device manufactured by the manufacturing method according to claim 1.

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