JP4179042B2 - Electro-optical device and electronic equipment with sound generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electro-optical device with a sounding body including a sounding body, and more specifically, an electro-optical device with a sounding body having a structure in which a display element section having an image display section and a sounding section having a sounding body are integrated, The present invention relates to a method for manufacturing a body-mounted electro-optical device and an electronic apparatus.
[0002]
[Prior art]
Electronic devices such as mobile phones and PDAs (Personal Digital Assistants) equipped with electro-optical devices such as liquid crystal display devices have various functions such as communication functions and music playback functions. In order to realize these functions, a speaker for generating sound in an electronic device, that is, a sounding body is necessary. Usually, the electro-optical device and the sounding body are separately arranged inside the housing of the electronic apparatus.
[0003]
Here, since the monitor of a personal computer has a relatively wide space inside the housing, the electro-optical device and the sounding body can be freely arranged inside the housing. However, in portable devices such as mobile phones and PDAs, the space inside the housing is narrow. The electro-optical device needs to make an image display unit for displaying an image visible from the outside of the housing. Therefore, in a portable device such as a mobile phone or a PDA, the arrangement position of the electro-optical device with respect to the inside of the housing is determined. In addition to the electro-optical device and the sounding body, a control circuit for controlling the electro-optical device and the sounding body, a battery, and the like need to be disposed inside the housing. For this reason, the sounding body has conventionally been arranged below the electro-optical device. In other words, places where sounding bodies can be placed are limited. Therefore, conventionally, a sounding body technique that can change the arrangement position inside the housing has been proposed (see Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-77346 A
[0005]
[Problems to be solved by the invention]
In recent years, miniaturization of portable devices such as mobile phones and PDAs has been increasingly demanded. For this reason, it is difficult to reduce the size of the portable device, although it is possible to reduce the thickness of the portable device by arranging the sounding body inside the housing other than the lower side of the electro-optical device as in the prior art. It is. This is because if the sounding body is disposed at a position other than the lower side of the electro-optical device inside the housing, a space in which the sounding body can be newly disposed inside the housing is required. Therefore, in consideration of miniaturization of the portable device, the sounding body is preferably disposed below the electro-optical device inside the housing.
[0006]
Here, in order for the sounding body to generate sound normally, an air chamber is required at least on the side opposite to the sound output side outside this sounding body, so the sounding body usually has a space inside the case. Is attached. This is to prevent the sound generated when the sound output side vibrates outside the sounding body from being canceled by the sound generated when the opposite side vibrates. Therefore, when the sounding body is disposed below the electro-optical device inside the housing, the thickness of the electro-optical device and the thickness of the case constituting the air chamber necessary for the sounding body to output sound to the outside are determined. Therefore, it is difficult to reduce the height of the space inside the housing, that is, to reduce the thickness of the portable device.
[0007]
In addition, the sound generator usually generates sound by vibrating. The vibration from the sounding body is transmitted to the electro-optical device indirectly through the housing or directly from the sounding body. Here, when the electro-optical device is, for example, a liquid crystal display device, the electro-optical device includes a pair of substrates facing each other with a liquid crystal interposed therebetween. In order to interpose the liquid crystal between the pair of opposed substrates, a cell gap is required between the two substrates. This cell gap is usually formed by a spherical spacer made of plastic beads, glass fiber or the like. This spherical spacer is held in a compressed state on two substrates. Therefore, when the vibration is transmitted to the electro-optical device, the vibration moves from the position where the spherical spacer is held. When the spherical spacer moves, when an image is displayed on the image display unit of the electro-optical device, a part thereof, that is, a portion where the spherical spacer has moved may be seen as a streak. That is, the vibration generated when the sound generator generates sound may cause display abnormality in the image display unit.
[0008]
Accordingly, the present invention has been made in view of the above, and can achieve any one of thinning, space saving, and prevention of display abnormality of the image display unit due to sound generated by the sound generator. An object is to provide an electro-optical device with a sounding body, a method for manufacturing the electro-optical device with a sounding body, and an electronic apparatus.
[0009]
[Means for Solving the Problems]
  In order to achieve the above object, an electro-optical device with a sounding body according to the present invention includes:An electro-optical device with a sounding body including a display element unit and a sound generation unit, wherein the display element unit includes an electro-optical device having an image display unit for displaying an image, and the image display unit of the electro-optical device. Includes an illuminating device disposed on the opposite side of the illuminating device, and a heat radiating plate disposed on the opposite side of the illuminating device from the electro-optical device, and the sounding portion includes a diaphragm and a piezoelectric film. A sounding body is included, and an air chamber is formed between the heat radiating plate and the sounding body.
[0010]
  According to this invention, a part of the air chamber necessary for the sounding body to generate sound normally is placed on the back of the display element unit.Metal heat sinkConsists of. Therefore, unlike the conventional case, a case for forming an air chamber is not necessary, and the thickness of the case positioned on the back surface of the display element portion can be reduced. As a result, the combined height of the display element portion and the sound generating portion can be reduced, and the overall thickness and space saving can be reduced.
[0011]
  Also,the aboveElectro-optical device with sounding body according to the inventionInThe abovePronunciationIsIt is arranged in the hollow partIt is characterized by that.
[0012]
  According to the above configuration, the sounding body is arranged corresponding to the position of the hollow portion of the sounding body frame, that is, the sounding body andHeat sinkA space as an air chamber is formed by the hollow portion of the sound generator frame. Therefore,Heat sinkThere is no member interposed between the sound generator and the sounding body. As a result, the combined height of the display element portion and the sound generating portion can be reduced, and the overall thickness and space saving can be reduced.
[0013]
  Also, tableFurther provided with a buffer interposed between the indicating element part and the sounding partMay be. thisConstitutionAccording to the above, the sounding body vibrates when generating sound, but this vibration is absorbed by the buffer and attenuates. Therefore, the vibration from the sounding part having the sounding body is transmitted to the display element part via the buffer, so that the vibration of the display element part is reduced. As a result, the sounding body generates sound, so that it is possible to prevent display abnormality of the image display unit of the display element unit. Here, the buffer refers to, for example, urethane rubber, foam material, and the like.
[0014]
  the aboveThe shock absorber is formed in a frame shape, and the first air chamber is composed of at least the back surface of the display element portion, the sounding body, and the shock absorber.May be. thisConstitutionAccording to the present invention, the buffer body is disposed between the sounding portion and the display element portion, that is, a gap as a first air chamber is formed between the sounding body and the display element portion within the frame of the buffer body. The Therefore, there is no member interposed between the back surface of the display element portion and the sounding body. As a result, the combined height of the display element portion and the sound generating portion can be reduced, and the overall thickness and space saving can be reduced.
[0015]
  Also,BookIn the electro-optic device with a sounding body according to the invention, the sounding body of the sounding portion is formed of a piezoelectric vibrator. According to the present invention, since the thin piezoelectric vibrator is used as the sounding body, the combined height of the display element portion and the sounding portion can be further reduced, thereby further reducing the overall thickness and space. Can do. Here, the piezoelectric vibrator includes a unimorph type or bimorph type piezoelectric vibrator.
[0016]
  Also,BookIn the electro-optical device with a sounding body according to the invention,Electro-optic deviceIs a liquid crystal display device in which liquid crystal is sandwiched between gaps formed on a pair of opposing substrates,A spacer for forming the gap is provided between the pair of substrates, and the spacer is fixed to one of the pair of substrates.
[0017]
  The above configurationAccording to the present invention, the electro-optical device is a liquid crystal display device, and a plurality of spacers are provided on one of a pair of opposing substrates, and a cell gap is formed between the pair of substrates to interpose liquid crystal. Therefore, even if the vibration generated when the sound generator generates sound is transmitted to the display element unit, the spacer is completely fixed to one of the pair of substrates. Never move. Thereby, it is possible to further prevent the display abnormality of the image display unit due to the sound generator generating sound.
[0018]
The electro-optical device with a sounding body according to the next invention is characterized in that, in the electro-optical device with a sounding body, the spacer is formed in a columnar shape, and a tip portion of the spacer is in contact with the opposing substrate. According to this invention, the tip of the spacer that is completely fixed to the substrate is brought into contact with the opposing substrate. Therefore, even if vibration generated when the sound generator generates sound is transmitted to the display element portion, the position of the pair of substrates is not moved from the predetermined position by the spacer. Thereby, it is possible to further prevent the display abnormality of the image display unit due to the sound generator generating sound.
[0019]
An electro-optical device with a sounding body according to the next invention is an external device provided between the housing inner surface of an electronic device to which the electro-optical device with a sounding body is attached and the sounding body frame. An airtight holding member is further provided. According to the present invention, the external airtight holding member is provided so that the sound generated by the sounding body does not leak from between the electro-optical device with the sounding body and the housing of the electronic device. Thereby, the fall of the sound pressure of the sound output to the exterior of an electronic device can further be prevented.
[0020]
Here, it is preferable that the external security maintaining member has a function as a vibration absorber that absorbs vibration when the sound generator generates sound. Thereby, the vibration generated in the electro-optical device with a sounding body is absorbed and attenuated by the external security holding member. Therefore, the vibration from the electro-optical device with the sound generator is transmitted to the housing of the electronic device via the external security member, but the vibration transmitted from the housing to the display element portion is reduced. It is possible to further prevent display abnormality of the image display unit due to generation of sound. In addition, since vibration from the electro-optical device with a sound generator is reduced by the external security member and transmitted to the housing of the electronic device, damage to the control circuit inside the housing due to this vibration can be prevented.
[0021]
Further, the method for manufacturing the electro-optical device with a sounding body according to the invention includes a display element unit having an electro-optical device provided with an image display unit for displaying an image and a sounding unit having a sounding body. A method for producing an electro-optical device with a sounding body, wherein the sounding part is disposed on the back surface of the part, and the first air chamber is constituted by at least the back surface of the display element part and the sounding body. According to the present invention, a part of the first air chamber necessary for the sounding body to normally generate sound is configured on the back surface of the display element portion. Therefore, unlike the conventional case, a case for forming the first air chamber is not necessary, and the thickness of the case located on the back surface of the display element portion can be reduced. As a result, the combined height of the display element portion and the sound generating portion can be reduced, and the overall thickness and space saving can be reduced.
[0022]
In addition, since the electronic apparatus according to the next invention includes the electro-optical device with a sounding body, a part of the first air chamber necessary for the sounding body to normally generate sound is configured on the back surface of the display element unit. To do. Therefore, unlike the conventional case, a case for forming the first air chamber is not necessary, and the thickness of the case located on the back surface of the display element portion can be reduced. As a result, the combined height of the display element part and the sounding part can be reduced, and the electro-optic device with sounding body can be made thinner and space-saving. Can be achieved.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily assumed by those skilled in the art or those that are substantially the same. In the following embodiments, a liquid crystal display device is used as an example of an electro-optical device for the display element portion of the electro-optical device with a sound generator according to the present invention, but the present invention is not limited to this.
[0024]
[First embodiment]
FIG. 1 is an exploded perspective view of the electro-optical device with a sounding body according to the first embodiment. As shown in the figure, the electro-optical device 1 with a sounding body is mounted on a mobile phone or the like, and includes a display element unit 10, a sounding unit 20, a buffer body 30, and a housing 40. The display element unit 10 mainly includes a display element frame 11, a liquid crystal display device 12, a wiring board 13, a lighting device 14, and a heat sink 15. The display element frame 11 is disposed in a space portion 41 of a housing 40 described later, and has a space portion 11a therein, and a liquid crystal display device 12 and a lighting device described later in the space portion 11a. 14 (light source 14a and light guide 14b) are arranged. Further, slits 11b and 11c communicating with the space portion 11a are provided on the outer peripheral surface of the display element frame 11.
[0025]
2 is a diagram illustrating a configuration example of the image display unit 12a of the electro-optical device of the display element unit, and FIG. 3 is a cross-sectional view taken along line AA of FIG. Here, a case where, for example, a reflective transflective liquid crystal display device is used as the electro-optical device of the electro-optical device 1 with the sounding body will be described. As shown in FIGS. 1 and 2, the liquid crystal display device 12 is provided with an image display unit 12a composed of a plurality of display dots 12b so as to be visible from the surface (the upper side in the figure). The liquid crystal display device 12 includes a pair of opposing substrates, a color filter substrate (CF substrate) 121 and an element substrate 122, an annular seal 127 provided therebetween, and liquid crystal sealed in the annular seal 127. L. As shown in FIG. 3, a gap, that is, a cell gap 123 is formed between the CF substrate 121 and the element substrate 122 by the spacer 122a, and the liquid crystal L is enclosed in the cell gap 123 to form a liquid crystal layer 124. ing. The CF substrate 121 is made of translucent glass, translucent synthetic resin, or the like. A scattering layer 121b is formed on the liquid crystal side surface, and a reflective layer 121c is formed on the scattering layer 121b. Yes. The scattering layer 121b is formed of a translucent synthetic resin or the like, and unevenness is randomly formed on the liquid crystal side surface thereof. In addition, similar to the scattering layer 121b, irregularities are also randomly formed in the reflective layer 121c, and light incident on the reflective layer 121c is reflected as scattered light. The reflective layer 121c has an opening 121i formed at a predetermined location.
[0026]
A light shielding layer 121d is formed on the reflective layer 121c, and as shown in FIG. 2, a plurality of colored layers 121e are planarly formed between the light shielding layers 121d. Although not shown, the light shielding layer 121d is formed in a lattice shape so as to surround the colored layer 121e. In the cross-sectional structure shown in FIG. 3 (A-A cross section), only the B (blue) colored layer 121e, which is one of the three additive primary colors, is shown as the colored layer 121e. As shown, R (red) and G (green) colored layers 121e, which are other colors, are provided at different plane positions from the colored layer 121e (B). In FIG. 2, the plurality of R, G, and B colored layers 121e are arranged in a stripe arrangement, but the present invention is not limited to this, and a delta arrangement, a mosaic arrangement, or the like may be used. The light shielding layer 121d is formed by laminating a plurality of R, G, and B colored layers 121e. However, the light shielding layer 121d is not limited to this. For example, Cr is appropriately patterned, for example, photolithography. You may form by patterning in a grid | lattice form by the method using a process.
[0027]
An overcoat layer 121f is formed on the light shielding layer 121d and the colored layer 121e, a strip-shaped transparent electrode 121g is formed on the overcoat layer 121f, and an alignment film 121h is further formed thereon. . The overcoat layer 121f is made of a translucent synthetic resin or the like, and protects the light shielding layer 121d and the colored layer 121e formed under the overcoat layer 121f. One strip-shaped transparent electrode 121g extends in the vertical direction of the paper surface in FIG. 3, and a light shielding layer 121d is located between adjacent transparent electrodes 121g. The alignment film 121h is subjected to an alignment process, for example, a rubbing process, and the alignment of liquid crystal molecules in the liquid crystal layer 124 near the alignment film 121h is determined. A polarizing plate 125 is attached to the surface of the CF substrate 121 opposite to the liquid crystal side.
[0028]
The element substrate 122 facing the CF substrate 121 is formed of translucent glass, translucent synthetic resin, or the like. As shown in FIG. 3, a spacer 122a and a linear shape are formed on the liquid crystal side surface. Line wiring 122b, a plurality of elements 122c, and a plurality of transparent electrodes 122d are formed. The spacer 122a is made of a photosensitive synthetic resin material or the like, and is formed so as to cover the liquid crystal side of the element 122c and overlap the end portion of the transparent electrode 122d as shown in FIG. An alignment film 122e is further formed on these elements (122a to 122d). The alignment film 122e is subjected to an alignment process, for example, a rubbing process, and the alignment of the liquid crystal molecules in the liquid crystal layer 124 near the alignment film 122e is determined. A polarizing plate 126 is attached to the surface of the element substrate 122 opposite to the liquid crystal side. Here, the spacer 122a is formed in a columnar shape by patterning, for example, by a method using a photolithography process, and the tip of the spacer 122a is formed on the alignment film 121h formed on the CF substrate 122 via the alignment film 122e. It is in contact. That is, the spacer 122 a is formed so as to protrude in the direction of the opposing CF substrate 121, and is completely fixed between the CF substrate 121 and the element substrate 122. The shape of the columnar spacer 122a includes a conical shape with a missing tip, a pyramid shape with a missing tip, and other arbitrary shapes. Here, the region where the transparent electrode 121g of the CF substrate 121 and the transparent electrode 122d of the element substrate 122 overlap is the display dot 12b of the image display unit 12a.
[0029]
On the other hand, the wiring board 13 is a flexible board such as FPC (Flexible Printed Circuits) or heat seal, and is electrically connected to the liquid crystal display device 12. This connection is made with an adhesive containing a conductive member. The wiring board 13 is provided with a connector (not shown), and the wiring board 13 is electrically connected to a mobile phone or the like by this connector. The wiring substrate 13 outputs an image signal for displaying an image on the image display unit 12a of the liquid crystal display substrate 12 to the liquid crystal display device 12, or supplies power for lighting the illumination device 14. . Note that either the liquid crystal display device 12 or the wiring substrate 13 is a driver IC that supplies driving power whose voltage value is adjusted in order to drive and control the display dots 12b of the image display unit 12a of the liquid crystal display device 12. Is provided.
[0030]
The illumination device 14 includes a light source 14a and a light guide 14b. The light source 14a is a point light source such as an LED (Light Emitting Diode) or a linear light source such as a cold cathode tube, and is attached to the outer peripheral surface of the space portion 11a of the display element frame 11 via a light source attachment member 14c. . Reference numeral 14d denotes a light source substrate that supplies electric power for turning on the light source 14a. The light guide 14 b is a light guide plate that emits light from the light source 14 a to the image display unit 12 a of the liquid crystal display device 12. A reflective sheet 14e is attached to the back surface (lower side in the figure) of the light guide 14b. The reflection sheet 14e reflects light emitted from the back surface of the light guide 14b out of the light from the light source 14a guided to the light guide 14b to the front surface side of the light guide 14b. On the other hand, a diffusion sheet 14f and two prism sheets 14g and 14g are laminated and attached to the surface of the light guide 14b (upper side in the figure). The diffusion sheet 14f is for emitting uniform light by diffusion. The prism sheet 14g is for improving the luminance of light emitted from the surface of the light guide 14b and irradiating the image display unit 12a of the liquid crystal display device 12. A frame-shaped light shielding plate 16 made of a synthetic resin material or the like and having a light shielding property is provided between the liquid crystal display device 12 and the lighting device 14. Moreover, the heat sink 15 is a metal plate-shaped member, and covers the back surface (lower side in the figure) of the display element frame 11.
[0031]
The sound generation unit 20 includes a sound generator 21 and a sound generator frame 21. The sounding body 21 is a unimorph type piezoelectric vibrator having a diaphragm 21a made of a metal disk and a piezoelectric film 21b formed on one surface of the diaphragm 21a. Lead wires 21c and 21d are electrically connected to the electrodes of the piezoelectric film 21b by soldering. As described above, the piezoelectric vibrator is thin, and the combined height of the display element unit 10 and the sound generation unit 20, that is, the height of the casing 40 to be described later can be reduced. Can be made thinner and space-saving.
[0032]
The sounding body frame 22 is disposed in a space 41 of the casing 40 described later, and a hollow portion 22a is provided at the center thereof. The hollow portion 22 a has a stepped portion 22 b, and the inner diameter of the hollow portion 22 a on the upper side of the stepped portion 22 b is substantially the same as or slightly larger than the outer diameter of the sounding body 21. On the other hand, the inner diameter of the hollow portion 22a, which is the lower side of the stepped portion 22b, is such a size that the sounding body 21 does not fall off from the stepped portion 22b. The sound generator frame 22 is provided with a notch portion 22c communicating with the hollow portion 22a. Further, a plurality of fixing members 22 d for fixing the sounding body frame 22 to a casing 40 described later are provided on the outer peripheral surface of the sounding body frame 22.
[0033]
The shock absorber 30 is made of a vibration absorbing material such as urethane rubber or foamed material, and the shape thereof is a frame shape, and here is a ring shape. The outer diameter of the buffer body 30 is substantially the same as or slightly smaller than the inner diameter of the hollow portion 22a that is above the stepped portion 22b. Further, the thickness of the buffer body 30 is set so that the height of the buffer body 30 and the thickness of the sounding body 21 is slightly higher than the height above the stepped portion 22 of the hollow portion 22a. Yes.
[0034]
The housing 40 is provided with a space 41 for arranging the display element unit 10 and the sound generating unit 20 therein, and the image display unit 12a of the display element unit 10 is exposed above the space 41. Thus, an image display opening 42 is provided. Further, on the outer peripheral surface of the housing 40, the light source for the light source from the slit 43 for guiding the wiring board 13 to the outside of the housing 40 from the slit 11 b of the display element frame 11 and the slit 11 c of the display element frame 11. A slit 44 for guiding the substrate 14d to the outside is provided. A plurality of fixing holes 45 are provided on the outer peripheral surface of the housing 40 at positions corresponding to the fixing members 22d provided on the sounding body frame 22 of the sounding part 20, and the sounding body frame 22 of the sounding part 20 is provided. A lead wire opening 46 communicating with the notch 22c is provided. Reference numeral 50 denotes an external airtight holding member, which is made of a vibration absorbing material such as urethane rubber or foamed material, and has a ring shape. The inner diameter of the external airtight holding member 50 is substantially the same as or slightly larger than the inner diameter of the sound generation 22a, which is below the step portion 22b of the sound generator frame 22.
[0035]
Next, assembling of the electro-optical device 1 with a sounding body according to the first embodiment will be described. FIG. 4 is an assembly explanatory diagram of the electro-optical device with a sounding body. FIG. 5 is a diagram illustrating the assembled electro-optical device with a sounding body. As shown in FIGS. 1 and 4A, first, the display element frame 11 is placed on the heat sink 15. Next, the light guide 14b of the illuminating device 14 in which the reflection sheet 14e is overlapped on the back surface and the diffusion sheet 14f and the two prism sheets 14g are overlapped on the front surface is inserted into the space 11a of the display element frame 11. Place on top. Next, a frame-shaped light shielding plate 16 is inserted into the display element frame 11 and placed on the prism sheet 14g. Next, the liquid crystal display device 12 is inserted into the display element frame 11 and placed on the light shielding plate 16. Here, the wiring board 13 connected to the liquid crystal display device 12 is guided to the outside of the display element frame 11 by the slits 11 b of the display element frame 11. Similarly, the light source substrate 14 d connected to the light source 14 a is also guided to the outside of the display element frame 11 through the slit 11 c of the display element frame 11. That is, in the space portion 11 a of the display element frame 11, the lighting device 14 and the liquid crystal display device 12 are arranged in this order from the lower side, and the display element frame 11, the liquid crystal display device 12, the wiring board 13, and the lighting device 14. The heat radiating plate 15 and the light shielding plate 16 constitute the display element unit 10.
[0036]
Next, as shown in FIGS. 1 and 2A, the sounding body 21 is inserted into the hollow portion 22 a of the sounding body frame 22. At this time, the sounding body 21 is bonded to the stepped portion 22b of the hollow portion 22a with an elastic adhesive such as a silicon adhesive. Next, the buffer body 30 is inserted into the hollow portion 22a in which the sounding body 21 is inserted. At this time, the buffer body 30 slightly protrudes from the upper surface (the upper surface in FIG. 1) of the sound generator frame 22 in order to bring the buffer body 30 into contact with the back surface of the display element unit 10, that is, the heat radiating plate 15. It will be in the state. Note that the lead wires 21 c and 21 d of the sounding body 21 are led to the outside of the sounding body frame 22 from the notch 22 c of the sounding body frame 22. That is, the sounding body 21 and the buffer material 30 are arranged in this order from the lower side in the hollow portion 22 a of the sounding body frame 22, and the sounding body 21 and the sounding body frame 22 constitute the sounding section 20.
[0037]
Then, as shown in FIG. 4A, the display element portion 10, the buffer body 30 inserted in the hollow portion 22 a of the sound generator frame 22, and the sound generator 22 are inserted into the space portion 41 of the housing 40. To do. The fixing member 22d of the sounding body frame 22 is inserted into the fixing hole 45 from the space 41 side of the housing 40, so that the display element portion 10, the buffer body 30, and the sounding portion 20 are placed inside the housing 40. Placed and fixed. As described above, as shown in FIGS. 4B and 5, the assembly of the electro-optical device 1 with the sounding body is completed.
[0038]
Here, the image display unit 12 a of the display element unit 10 is exposed to the outside of the housing 40 from the image display opening 42 of the housing 40. Further, the wiring board 13 and the light source board 14d led to the outside of the display element frame 11 through the slits 11b and 11c of the display element frame 11 are respectively formed by the slit 43 and the slit 44 of the housing 40. Guided to the outside of the housing 40. Note that the light source substrate 14d is electrically connected to the wiring substrate 13 through the connection portion 14h. Furthermore, the lead wires 21 c and 21 d led to the outside of the sound generator frame 22 through the notch 22 c of the sound generator frame 22 are connected to the outside of the housing 40 by the lead wire opening 46 of the housing 40. Led to.
[0039]
FIG. 6 is a diagram showing an electro-optical device with a sounding body arranged inside the housing. The assembled electro-optical device 1 with a sounding body is disposed inside a housing 100 of an electronic device such as a mobile phone. A display window 101 is provided on the upper surface inside the housing 100, and a sounding opening 102 is provided on the lower surface so as to face the display window 101. The electro-optical device 1 with the sounding body is disposed inside the housing 100 so that the display window 101 and the image display unit 12a overlap with each other through the image display opening 42 of the housing 40. At this time, an airtight holding member 50 is fixed to the lower surface of the casing 40, that is, the lower surface of the sound generator frame 22 with an adhesive or a double-sided tape, and the airtight holding member 50 is attached to the lower surface inside the housing 100. Or fix it with double-sided tape. As a result, the electro-optical device 1 with the sounding body is disposed and fixed inside the housing 100.
[0040]
Next, the operation of the electro-optical device 1 with a sounding body will be described. First, a case where an image is displayed on the image display unit 12a will be described. When external light such as sunlight and room light is sufficient, the external light passes through the element substrate 122 and the liquid crystal layer 124 and is reflected and scattered by the reflective film 121c as shown by an arrow B in FIG. The scattered light is supplied to the liquid crystal layer 124. On the other hand, when the external light is insufficient, the LED that is the light source body 14a of the light source 14 is turned on. The light emitted from the light source body 14a enters the light guide 14b, and is opposite to the liquid crystal side of the CF substrate 121 of the liquid crystal display device 12 shown in FIG. 3 via the diffusion sheet 14f and the two prism sheets 14g and 14g. Irradiates uniformly to the side. The light applied to the CF substrate 121 is supplied to the liquid crystal layer 124 through an opening 121i formed in the reflective film 121c as indicated by an arrow C shown in FIG.
[0041]
While light is supplied to the liquid crystal layer 124, it is driven and controlled by at least a driver IC (not shown). For example, a scanning signal is supplied to the line wiring 122b, and at the same time, a data signal is supplied to the band-shaped transparent electrode 121g. . When the element 122c of a specific display dot 12b is selected, that is, turned on in accordance with the potential difference between the scanning signal and the data signal, an image signal is written to the display dot 12b. Thereafter, when the element 122c is in a non-selected state, that is, in an OFF state, the image signal is stored in the display dot 12b and drives the liquid crystal layer 124 of the display dot 12b. Thus, the liquid crystal molecules in the liquid crystal layer 124 are controlled for each display dot 12b, and modulate light (arrows B and C shown in FIG. 3) supplied to the liquid crystal layer 124. The modulated light passes through the polarizing plate 126 attached to the element substrate 122 of the liquid crystal display device 12, so that images such as letters, numbers, and figures are displayed on the image display unit 12 a of the liquid crystal display device 12.
[0042]
Here, display of an image performed by the image display unit 12a using light from the light source 14 (arrow C in FIG. 3) is referred to as transmissive display. On the other hand, the display of an image performed by using the external light reflected by the reflective layer 121c (arrow B shown in FIG. 3) by the image display unit 12a is referred to as a reflective display. In the electro-optical device 1 with the sound generator, the transmissive display and the reflective display are automatically performed by a control circuit inside the electro-optical device or the housing 100 of the electronic device in accordance with a user's desire or a change in the external environment. select. Note that the image displayed on the image display unit 12 a can be visually recognized from the outside of the housing 100 through the display window 101 of the housing 100.
[0043]
Next, a case where sound is generated in the sound generator 21 will be described. In order to cause the sounding body 21 to generate sound, power is supplied to the sounding body 21 via lead wires 21c and 21d from a control circuit inside the housing 100 of the electronic device such as a mobile phone. The sounding body 21 supplied with the electric power is distorted in the piezoelectric film 21b, and the diaphragm 21a is flexibly vibrated. As shown in FIGS. 4A and 6A, on the side opposite to the sound output side (lower side in FIG. 6) of the sounding body 21, as shown in FIGS. 4A and 6A, The first air chamber A necessary for the sounding body 21 to normally generate sound is constituted by the heat radiating plate 15, the inner surface of the buffer body 30, and the back surface of the sounding body 21 (upper surface in the figure). Has been. Thereby, since the sound generated when the sound output side vibrates outside the sounding body 21 is not canceled by the sound generated when the opposite side vibrates, the sounding body 21 may normally generate the sound. it can. In addition, since a part of the first air chamber A is constituted by the heat radiating plate 15 which is the back surface of the display element part 10, the sound element frame 22 or the buffer material 30 constitutes the display element part 10 side of the hollow part 22a. In comparison, the thickness of the sound generator frame 22 or the buffer 30 can be reduced. Thereby, the height which put together the display element part 10 and the sound generation part 20 can be made low. That is, the height of the housing 40 in which these are disposed can be reduced, and the electro-optical device with a sounding body 1 can be reduced in thickness and space can be reduced.
[0044]
At this time, since the sounding body 21 vibrates and generates sound, this vibration is transmitted to the sounding body frame 22. The vibration of the sounding body 21 itself and the transmitted vibration of the sounding body frame 22 are absorbed and attenuated by the buffer body 30 of the hollow portion 22a in which the sounding body 21 is inserted. That is, since the buffer 30 interposed between the display element unit 10 and the sound generation unit 20 absorbs and attenuates vibration from the sound generation unit 20, the vibration of the display element unit 10 is reduced. Thereby, it is possible to prevent display abnormality of the image display unit 12a due to the sound generator 21 generating sound.
[0045]
Even if vibration is transmitted from the sound generating unit 20 to the display element unit 10, the columnar spacer 122 a provided on the element substrate 122 is completely fixed to the element substrate 122. The element substrate 122 is not moved. Further, since the tip of the columnar spacer 122a is in contact with the alignment film 121h of the CF substrate 121 facing the element substrate 122 through the alignment film 122e, the positions of the CF substrate 121 and the element substrate 122 move from a predetermined position. Never do. Accordingly, it is possible to further prevent display abnormality of the image display unit due to the sound generator 21 generating sound.
[0046]
The sound generated by the sounding body 21 is output to the outside of the housing 100 through the sounding opening 102 of the housing 100 from the sound output side to the outside of the sounding body 21. At this time, since the external airtight holding member 50 is provided between the sounding body frame 22 and the housing 100, the sound generated by the sounding body 21 is generated between the electrooptic device with sounding body 1 and the housing 100. There is no leakage. As a result, it is possible to prevent the sound pressure of the sound output from the sound generation opening 102 of the housing 100 from being lowered.
[0047]
Further, since the external airtight holding member 50 is made of a vibration absorbing material such as urethane rubber or foaming material, the vibration generated in the sounding body 21, that is, the electro-optical device 1 with sounding body is absorbed by the external security holding member 50, Attenuates. Therefore, the vibration generated in the electro-optical device 1 with the sounding body is transmitted to the housing 100 of the electronic device via the external security member 50, but the vibration transmitted from the housing 100 to the display element unit 10 is reduced. Therefore, it is possible to further prevent display abnormality of the image display unit 12a due to the sound generator 21 generating sound. Further, damage to the control circuit inside the housing 100 can be prevented.
[0048]
[Second Embodiment]
FIG. 7 is an exploded perspective view of the electro-optical device with a sounding body according to the second embodiment. FIG. 8 is an assembly explanatory diagram of the electro-optical device with a sounding body. FIG. 9 is a diagram showing the assembled electro-optical device with a sounding body. FIG. 10 is a diagram showing an electro-optical device with a sounding body arranged inside the housing. The electro-optical device 1 'with a sounding body shown in the figure is different from the electro-optical device 1 with a sounding body shown in FIG. 1 in that a second air chamber is provided on the opposite side of the sounding body 21 from the first air chamber A side. The point B is provided, and the sound generator frame 22 is provided with a pipe-like sound emitting hole 22f communicating with the second air chamber B. The other basic configurations of the display element unit 10, the sounding unit 20, the buffer body 30, and the housing 40 are substantially the same as those of the electro-optical device 1 with a sounding body shown in FIG. Further, when a liquid crystal display device is used for the electro-optical device 1 ′ with a sounding body, the configuration of the electro-optical device 12 of the display element unit 10 is the same as the electro-optical device of the electro-optical device 1 with a sounding body shown in FIGS. Since the configuration is the same as that of FIG.
[0049]
As shown in FIGS. 7 and 8, the sound generating unit 20 of the electro-optical device with sound generator 1 ′ has a hollow portion in which the display element unit 10 side opens in the sound generator frame 22 ′ and the opening on the opposite side is smaller. 22e is provided. The airtight holding member 23, the sounding body 21, and the buffer body 30 are inserted into the hollow portion 22e in this order. The airtight holding member 23 is made of a vibration absorbing material such as urethane rubber or foamed material, and has a ring shape. The outer diameter of the airtight holding member 23 is substantially the same as or slightly smaller than the inner diameter of the sound generating space. Here, when the airtight holding member 23, the sounding body 21, and the buffer body 30 are inserted into the hollow portion 22e, the buffer body 30 comes into contact with the back surface of the display element section 10, that is, the heat radiating plate 15. As shown to (a), it will be in the state which protruded a little from the upper surface (the upper surface in the figure (a)) of sounding body flame | frame 22 '.
[0050]
The sound generator frame 22 'is provided with a pipe-like sound emitting hole 22f communicating with the sound generating space 22e. The sound emitting hole 22f is disposed at the center of the inner surface on the side where the sounding body 21 of the sounding space 22e outputs sound to the outside. The sound emitting hole 22f protrudes from the lower side of the sound generator frame 22 ', and an external airtight holding member 50 is fixed to the outer periphery of the protruding sound emitting hole 22f with an adhesive or a double-sided tape (see FIG. 10).
[0051]
Further, as shown in FIG. 9, the sound emitting hole 22f is inserted through the extension portion 13a extending from the slit 43 of the housing 40 of the wiring board 13 of the display element portion 10 to the outside of the housing 40. A sound hole 13b may be provided. In this case, as shown in FIG. 8B, after the electro-optical device with a sounding body 1 ′ is assembled, the extending portion 13a of the wiring board 13 is connected to the housing 40 as shown in FIG. 10B. Is turned back to the sound generator 20 side. The sound emission hole 22f protruding from the lower side of the sound generator frame 22 'is inserted into the sound output hole 13b of the folded extension portion 13a, and the lower surface and the extension portion of the sound generator frame 22' are inserted. 13a is fixed with double-sided tape or the like. Therefore, since there is the image display part 12a, the extended part 13a of the wiring board 13 that could not be folded back to the display element part 10 side can be folded back to the sounding part 20 side. As a result, the electro-optic device with a sounding body 1 'can be made compact. In addition, it is preferable that the diameter of the sound emitting hole 13b of the extending portion 13a is a diameter that allows the external airtight holding member 50 to be inserted therethrough.
[0052]
Next, the operation of the electro-optical device 1 ′ with a sounding body will be described. In addition, since it is the same as that of said 1st embodiment when displaying an image on the image display part 12a, the description is abbreviate | omitted. When the sounding body 21 generates sound, power is supplied to the sounding body 21 from the control circuit in the housing 100 of the electronic device such as a mobile phone via the lead wires 21c and 21d. The room A generates sound normally. As shown in FIG. 10, the sound generated by the sounding body 21 is introduced into a second air chamber B configured on the opposite side of the sounding body 21 from the first air chamber A side. The second air chamber B is constituted by the inner surface of the airtight holding member 23, the sound generator frame 22 (the inner surface of the hollow portion 22e), and the surface of the sound generator 21 (the surface on the side where the sound generator 21 outputs sound to the outside). Has been.
[0053]
The sound in the second air chamber B is output to the outside of the electro-optical device with a sounding body 1 ′ from a sound emission hole 22 f provided in a hollow portion 22 e communicating with the second air chamber B. Thereby, the sound in the second air chamber B can be output to the outside of the electro-optical device with a sounding body 1 ′ without lowering the sound pressure of the sound in the second air chamber B. The sound output from the sound emitting hole 22f is not leaked from between the electro-optical device 1 'with the sound generator and the housing 100 by the external security holding member 50 provided on the outer periphery of the sound emitting hole 22f. Is output to the outside from the sound generation opening 102. As a result, it is possible to prevent the sound pressure of the sound output from the sound generation opening 102 of the housing 100 from being lowered. Further, as shown in FIG. 10, the sound emission hole 22 f has a pipe shape protruding to the vicinity of the lower surface (inner surface) inside the housing 100. Since the sound emission hole 22f has a pipe shape, the sound introduced from the second air chamber B to the sound emission hole 22f is output to the outside of the sound emission hole 22f without reducing the sound pressure. Thereby, the fall of the sound pressure of the sound output to the exterior of an electric equipment can further be prevented.
[0054]
In the above-described embodiment, the extending portion 13a of the wiring board 13 is fixed to the lower side of the sound generator frame 22 'with a double-sided tape. However, the present invention is not limited to this, and is provided, for example, in the extending portion 13a. The locking holes provided on the lower side of the sound generator frame 22 ′ may be locked in the locking holes. According to this, since the height of the electro-optical device 1 ′ with a sound generator is further reduced by the thickness of the double-sided tape, the electro-optical device 1 ′ with sound generator can be further reduced in thickness and space.
[0055]
In the first and second embodiments, the spacer 122a is provided on the element substrate 122 side of the electro-optical device 12, but the present invention is not limited to this, and the spacer may be provided on the CF substrate 121 side. good. The spacer 122a provided on the element substrate 122 side is provided to cover the element 122c, but may be provided on the element substrate 122 other than the element 122c. Further, in the first and second embodiments, as shown in FIG. 2, the spacers 122a are provided at regular intervals (for example, only the display dots 12b in which B (blue) is formed in the colored layer 121e). However, the present invention is not limited to this. For example, the spacer 122a may be formed only on the display dots 12b in which R (red) or G (green) is formed on the colored layer 121e, or the spacers 122a may be provided on all the display dots 12b.
[0056]
[Applicable objects of the present invention]
Examples of electronic devices to which the electro-optic device 1 and 1 ′ with a sound generator according to the present invention can be applied include, in addition to mobile phones, portable information devices such as PDAs, portable personal computers, personal computers, digital still cameras, Electro-optical devices such as in-vehicle monitors, digital video cameras, LCD TVs, viewfinder type, monitor direct-view type video tape recorders, car navigation devices, pagers, electronic notebooks, calculators, word processors, workstations, video phones, POS terminals The apparatus using is mentioned. Therefore, it goes without saying that the present invention can be applied even to an electrical connection structure in these electronic devices.
[0057]
In the electro-optical device 1 and 1 'with a sounding body according to the present invention, a case where a reflective transflective liquid crystal display device is used as the electro-optical device has been described. It is also possible to use. Note that when the total reflection type liquid crystal display device is used, the illumination device 14 of the display element unit 10 may not be provided.
[0058]
The electro-optic devices 1 and 1 ′ with sound generators according to the present invention are all active-matrix liquid crystal display devices as electro-optic devices (for example, TFTs or thin-film diodes using switching elements 122 c as thin film transistors) However, a passive matrix liquid crystal display device can also be used. In addition, the electro-optic device with a sounding body 1, 1 'according to the present invention is not limited to using a liquid crystal display device as an electro-optic device, but is an electroluminescence device, a plasma display device, a field emission display device, an LED (light). It is also possible to use an emitting diode) display device, an electrophoretic display device, or the like. Note that when the self-luminous electro-optical device is used, the illumination device 14 of the display element unit 10 may not be provided.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an electro-optical device with a sounding body according to a first embodiment.
FIG. 2 is a diagram illustrating a configuration example of an image display unit of an electro-optical device of a display element unit.
3 is a cross-sectional view taken along the line AA in FIG.
FIG. 4 is an assembly explanatory view of an electro-optical device with a sounding body.
FIG. 5 is a view showing an assembled electro-optical device with a sounding body.
FIG. 6 is a view showing an electro-optical device with a sounding body disposed inside a housing.
FIG. 7 is an exploded perspective view of an electro-optical device with a sounding body according to a second embodiment.
FIG. 8 is an assembly explanatory view of an electro-optical device with a sounding body.
FIG. 9 is a view showing an assembled electro-optical device with a sounding body.
FIG. 10 is a diagram showing an electro-optical device with a sounding body disposed inside a housing.
[Explanation of symbols]
1, 1 ′ electro-optic device with sound generator, 10 display element section, 11 display element frame, 12 electro-optic device, 121 CF substrate, 122 element substrate, 122a spacer, 13 wiring board, 14 illumination device, 15 heat sink, 20 sound generator, 21 sound generator, 22, 22 'sound generator frame, 23 airtight holding member, 30 shock absorber, 40 housing, 50 external airtight holding member

Claims (4)

In an electro-optical device with a sounding body comprising a display element part and a sounding part,
The display element unit includes an electro-optical device having an image display unit for displaying an image, an illuminating device disposed on the opposite side of the electro-optical device from the image display unit, and the electro-optical device of the illuminating device. Includes a metal heat sink disposed on the opposite side,
  The sounding unit includes a sounding body having a diaphragm and a piezoelectric film,
  An electro-optical device with a sounding body, wherein an air chamber is formed between the heat radiating plate and the sounding body. The sounding part has a sounding body frame provided with a hollow part,
The electro-optical device with a sounding body according to claim 1, wherein the sounding body is disposed in the hollow portion . The electro-optical device is a liquid crystal display device in which liquid crystal is sandwiched between gaps formed on a pair of opposing substrates, a spacer that forms the gap is provided between the pair of substrates , and the spacer is the pair of substrates. The electro-optical device with a sounding body according to claim 1, wherein the electro-optical device is fixed to one of the substrates. An electronic apparatus comprising the electro-optical device with a sounding body according to any one of claims 1 to 3 .

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