JP2007285743A - Electronic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a structure for an electronic device provided with a display portion, capable of preventing infiltration of moisture into the display portion, and moreover, capable of reducing its thickness. <P>SOLUTION: In a watchcase 2 having a time display window 4 attached with windshield glass 10, the display portion 5A is provided so as to be visible via the windshield glass 10, and this display portion 5A is housed in a moistureproof structure comprising the windshield glass 10. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an electronic device having a display unit.

2. Description of the Related Art In recent years, many electronic devices including a display unit have been reduced in size and thickness in order to improve portability and design. For example, in a wristwatch provided with a liquid crystal display member, there is a wristwatch that is thinned by using a film type liquid crystal display member (see, for example, Patent Document 1).
JP-A-6-66968

By the way, many display units used in electronic devices such as wristwatches are sensitive to the influence of the surrounding environment. Therefore, in order to stably use the display unit for a long period of time, the display unit may be further housed in a housing of an electronic device in a state of being housed in a moisture-proof case for preventing moisture from entering. However, in such a configuration, the structure of the display unit being double wrapped entails an increase in the size of the casing of the electronic device, particularly an increase in thickness, making it very difficult to reduce the size and thickness of the electronic device. Met.
In view of the above, an object of the present invention is to provide a configuration that can prevent moisture from entering the display unit and can be thinned in an electronic device including the display unit.

In order to solve the above-described problems, the present invention provides an electronic device in which a display unit is provided in a case having a window to which a windshield is attached so as to be visible through the windshield. The electronic device is characterized in that the display unit is housed in a moisture-proof structure configured by a structure unit joined to the windshield.
According to this configuration, by accommodating the display unit in the moisture-proof structure, moisture from outside does not enter the display unit, and the display unit can be used stably over a long period of time. In addition, the windshield and the structure part constitute a moisture-proof structure, and the windshield as part of the exterior of the electronic device also serves as part of the moisture-proof structure, so that the display part can be reliably moisture-proof and is extremely thin A moisture-proof structure can be realized. Thereby, the electronic device can be thinned, and portability and design can be improved. Moreover, since the display unit is located near the windshield, there is an advantage that display visibility is high.

In the above-described configuration, the structure portion is impermeable to moisture which is bonded to the moisture-proof moisture-proof plate covering the lower surface of the display portion in the case and the windshield and the moisture-proof plate and surrounds the periphery of the display portion. It is good also as what was comprised by the side wall. In this case, the moisture-proof structure for moisture-proofing the display unit is a simple structure consisting of a windshield, a moisture-impermeable moisture-proof plate, and a moisture-impermeable sidewall, so that it is easy to reduce the thickness and provide more reliable moisture resistance. The effect can be expected.
In the above structure, the display section is configured by sandwiching a display body between a first electrode having translucency and a second electrode facing the first electrode, It is good also as what displays an image by giving an electric effect | action to the said display body with a 2nd electrode. In this case, various display methods such as a particle movement type electronic paper and a cholesteric liquid crystal display panel can be used as the display unit.

Furthermore, the first electrode may be formed on the back surface of the windshield, and the second electrode may be formed on the surface of the moisture barrier plate. In this case, since the windshield also serves as the substrate that supports the first electrode, and the moisture-proof plate also serves as the substrate that supports the second electrode, the thickness can be further reduced.
The first electrode may be formed on a translucent substrate disposed on the back surface of the windshield, and the second electrode may be formed on the surface of the moisture-proof plate. In this case, since the translucent substrate that supports the first electrode and the windshield are separate, there is no need to use the windshield in the step of forming the first electrode. For example, the shape and material of the windshield are the first. Even if the electrode is not suitable for the electrode forming process, the electrode can be formed without any problem, and the production efficiency can be improved. On the other hand, when determining the size and shape of the windshield, it is not necessary to consider the convenience in the process of forming the first electrode, so priority can be given to aesthetics and ease of processing as a windshield, Cost reduction can be achieved. Furthermore, since the light-transmitting substrate is on the back surface of the windshield and is accommodated in the moisture-proof structure, the light-transmitting substrate itself is not required to have strength or moisture resistance other than supporting the first electrode. Therefore, a variety of materials can be used for the light-transmitting substrate regardless of moisture permeability or moisture permeability, and the light-transmitting substrate can be extremely thin, and does not hinder the thinning of the electronic device.

  Furthermore, the first electrode is formed on a light-transmitting substrate disposed on the back surface of the windshield, and the second electrode is formed on a substrate disposed on the surface of the moisture barrier plate. It is also good. In this case, the translucent substrate that supports the first electrode and the windshield are separate, and the substrate that supports the second electrode and the moisture barrier plate are separate, so the first and second It is not necessary to use a windshield or moisture barrier plate in the process of forming the electrode. For example, even if the shape or material of the windshield or moisture barrier plate is not suitable for the electrode formation process, it is possible to form the electrode without any problem, so manufacturing efficiency Can be increased. On the other hand, when determining the shape and size of the windshield, it is not necessary to consider the convenience in the process of forming the first electrode, so priority can be given to the aesthetics and ease of processing as a windshield, improving design, In addition, cost reduction can be achieved. Furthermore, since the light-transmitting substrate and the substrate are accommodated in the moisture-proof structure, the light-transmitting substrate and the substrate itself are not required to have strength or moisture-proof properties other than supporting the first and second electrodes. For this reason, various materials can be used as the light-transmitting substrate and the substrate regardless of moisture permeability or impermeableness, and cost reduction and thickness reduction are possible. For example, in the above configuration, the substrate may be made of a synthetic resin.

The display body may be configured as a liquid crystal. In this case, in an electronic device including a liquid crystal display device, the electronic device can be thinned while reliably preventing moisture from entering the liquid crystal.
Further, the display unit may be configured as particle movement type electronic paper. In this case, in the electronic device using the particle movement type electronic paper, it is possible to surely prevent moisture from entering the display unit from the outside, to realize stable operation for a long time, and to reduce the thickness of the electronic device. Can do.
In addition, a thin layer transistor may be provided as the second electrode.

  Furthermore, the said structure WHEREIN: You may provide the concealment part which conceals the said moisture proof structure so that it cannot visually recognize through the said windshield in the said windshield. In this case, since the moisture-proof structure is not visually recognized through the windshield, the design can be further improved. In addition, since an aesthetic appearance is not required for the material constituting the moisture-proof structure, a material optimal for moisture-proofing can be used, and more reliable moisture-proofing and cost reduction can be achieved.

Moreover, the said structure WHEREIN: The said windshield is good also as what reduces or suppresses the irregular reflection of the visible ray in the surface. In this case, the visibility of the display unit can be further enhanced.
Furthermore, the said windshield is good also as what was formed in the curved surface. In this case, the design can be further improved by configuring the windshield in a curved surface.

Moreover, the said structure WHEREIN: It is good also as a structure by which the recessed part which can accommodate at least one part of the said display part was formed in the back surface of the said windshield. In this case, the moisture-proof structure can be made thinner by accommodating at least a part of the display unit in the concave portion on the back surface of the windshield.
Furthermore, the electronic device may be configured as a clock that displays time on the display unit. In this case, it is possible to reduce the thickness of the watch while ensuring moisture-proofing of the display portion of the watch, to improve portability and design, and to improve wearing comfort.

  According to the present invention, the display unit can be reliably moisture-proof and stable for a long period of time, and the electronic device can be thinned to improve design.

Next, a preferred embodiment to which the present invention is applied will be described with reference to the drawings. Note that the drawings referred to in the following embodiments are partially shown for convenience of understanding, and the size ratio of each part in the drawings does not necessarily match the actual size ratio.
In the following embodiments, a mode in which the present invention is applied to a wristwatch as an electronic device will be described as an example.
[First Embodiment]
FIG. 1 is an external view showing a configuration of a wristwatch according to a first embodiment to which the present invention is applied.
A wristwatch 1 as an electronic device shown in FIG. 1 includes a hollow watch case (case) 2 and a pair of bands 3 attached to the watch case 2. The band 3 is fixed around the wrist of the user when the wristwatch 1 is worn. The watch case 2 has a substantially disk shape, and a time display window (window) 4 is opened on one surface. In the following description, the side on which the time display window 4 opens is the front side, and the opposite side is the back side.

A display panel 5 is disposed in the time display window 4, and a windshield (windshield) 10 is fitted to cover the display panel 5.
The display panel 5 is a display panel having display holding properties as will be described later, and various images including characters and patterns (hereinafter simply referred to as images) for the purpose of expressing and decorating information such as time and date. indicate. In the present embodiment, the case where a particle movement type electronic paper using electrophoretic particles is used as the display panel 5 will be described as an example.
The windshield 10 is a flat or curved plate made of, for example, transparent glass, and an image displayed on the display panel 5 can be visually recognized through the windshield 10.
The windshield 10 may be provided with a function of protecting the display panel 5 and the like from ultraviolet rays as UV cut glass that reduces the transmittance of ultraviolet rays. Specifically, the material of the windshield glass itself may have an ultraviolet ray preventing function for blocking, reflecting or absorbing ultraviolet rays, or may be provided with a film or layer having an ultraviolet ray preventing function. In this case, the influence of ultraviolet rays on the display panel 5 can be prevented, and a longer-term stable operation can be realized.
In addition, if the surface of the windshield 10 is provided with a so-called non-reflective coating so that the irregular reflection of light (particularly visible light) on the surface of the windshield 10 is reduced or suppressed, the visibility of the display panel 5 is improved. You can also.
On the side surface of the watch case 2, a plurality of buttons 6 for performing various operations such as operation mode change and time correction are disposed.

2 is a cross-sectional view taken along line AA in FIG.
As shown in FIG. 2, a windshield 10 is fitted in the time display window 4 that opens on the front side of the watch case 2. A groove 2A is formed on the entire inner peripheral surface of the time display window 4, and an O-ring-shaped packing 11 is fitted in the groove 2A. The inner peripheral surface of the time display window 4 and the side surface of the windshield 10 Are in close contact with each other through the packing 11. Further, the receiving portion 2B protrudes from the inner peripheral surface of the time display window 4 toward the center thereof. The receiving portion 2 </ b> B contacts the back surface of the windshield 10 and supports the windshield 10.
An opening is formed on the back surface of the watch case 2, and the back cover 7 is fixed to the opening by screwing or bonding. The case back 7 and the watch case 2 are closely joined via a packing 8. As described above, the hollow portion of the watch case 2 is sealed by the windshield 10 and the back cover 7 and can prevent entry of water or the like from the outside.
The hollow portion 2C of the watch case 2 accommodates a control circuit (not shown) that performs a control operation for controlling display on the display panel 5, a timing operation, and the like.

Further, the windshield 10 constitutes the display panel 5 together with a glass substrate 15 as a moisture-proof plate and a display unit 5A sandwiched between the glass substrate 15.
The display unit 5A includes a transparent electrode layer 12 formed on the back surface of the windshield 10, an electrode layer 14 formed on the surface of the glass substrate 15, and a micro sandwiched between the transparent electrode layer 12 and the electrode layer 14. And a capsule layer 13.
The transparent electrode layer 12 is a thin layer made of a light-transmitting conductor such as ITO (Indium-Tin Oxide), and is formed on the back surface of the windshield 10 by vapor deposition, coating, printing, or the like. . The electrode layer 14 is a thin layer formed by depositing a transparent or opaque conductor on the surface of the glass substrate 15 by coating, coating or printing.
The conductor of the electrode layer 14 is divided according to a predetermined pattern, and constitutes a plurality of segment electrodes 25 as second electrodes. Each segment electrode 25 corresponds to a segment as a display unit of the display panel 5. Moreover, the conductor of the transparent electrode layer 12 is formed in a pattern straddling all the segment electrodes 25 of the electrode layer 14, and constitutes the transparent common electrode 21 (FIG. 3) as the first electrode.
The transparent common electrode 21 of the transparent electrode layer 12 and the segment electrode 25 of the electrode layer 14 are connected to a control circuit (not shown) accommodated in the hollow portion 2C via the flexible substrate 16, and By the operation, the potentials of the transparent common electrode 21 and the segment electrode 25 change.
Further, the microcapsule layer 13 has a configuration in which a large number of microcapsules 22 (FIG. 3) as display bodies are arranged in a plane, and these microcapsules 22 include a transparent common electrode 21 and a segment electrode as will be described later. Presents blue or white with a potential difference of 25. Therefore, by controlling the potentials of the transparent common electrode 21 and the segment electrode 25, it is possible to display blue or white for each segment and display an image.

Since the transparent electrode layer 12, the microcapsule layer 13, and the electrode layer 14 constituting the display unit 5A are smaller in size than the windshield 10 and the glass substrate 15, the peripheral portions of the windshield 10 and the glass substrate 15 are exposed. . A sealing material 17 as a side wall made of a moisture-impermeable (moisture-proof) synthetic resin such as an epoxy resin is disposed on the peripheral portions of the windshield 10 and the glass substrate 15. The windshield 10 and the glass substrate 15 are closely joined.
The sealing material 17 is distribute | arranged over the perimeter part of the windshield glass 10 and the glass substrate 15, and surrounds 5 A of display parts from a side. Further, the sealing material 17 has a predetermined height, and the windshield 10 and the glass substrate 15 are separated from each other by the height of the sealing material 17. And the display part 5A is accommodated in the space in the moisture proof structure comprised by the windshield glass 10, the glass substrate 15, and the sealing material 17, and the display part 5A exists in the environment where external moisture does not penetrate | invade. .
Here, a flexible substrate 16 is connected to the transparent electrode layer 12 and the electrode layer 14 in order to apply a voltage from a control circuit (not shown). Although the flexible substrate 16 penetrates the sealing material 17, the sealing material 17 is in close contact with the entire circumference of the flexible substrate 16 at a portion where the flexible substrate 16 penetrates, and the moisture resistance is not impaired.
Further, as shown in FIG. 1, the windshield 10 is provided with a blind print P as a concealing portion so that the sealing material 17 and the internal mechanism of the wristwatch 1 cannot be visually recognized from the windshield 10 side. This blind print P is obtained by applying an opaque pigment or paint on the back surface of the windshield 10 from the edge of the microcapsule layer 13 to the edge of the windshield 10. By hiding the moisture-proof structure by this blindfold printing P, the design can be further enhanced. In addition, since the material constituting the moisture-proof structure, in particular, the sealing material 17 is not required to be aesthetic, an optimum material for moisture-proofing can be used, and more reliable moisture-proofing and cost reduction can be achieved.

FIG. 3 is a cross-sectional view of the main part showing the configuration of the display panel 5, and FIG. 4 is an enlarged cross-sectional view of the main part showing the structure of the display unit 5A.
In FIGS. 3 and 4, only the electrodes in contact with the microcapsules are hatched, and the other portions are not hatched in order to avoid complication of the drawing.
The display panel 5 is an electrophoretic display panel having display retention. In the present embodiment, a case where the display panel 5 is configured by a segment display panel will be described.
As described above, the display panel 5 has the display portion 5A disposed between the transparent windshield 10 and the glass substrate 15 serving as a mounting substrate. The display unit 5A has a configuration in which the transparent common electrode 21 and the segment electrode 25 are arranged to face each other with the microcapsule 22 interposed therebetween.

  The microcapsule 22 contains an electrophoretic dispersion liquid 24 in which electrophoretic particles 23 are mixed. For example, blue particles charged to a positive polarity are applied to the electrophoretic particles 23, and the electrophoretic dispersion liquid 24 is colored white, so that a so-called one-particle electrophoretic layer is formed. A large number of microcapsules 22 are arranged in a plane so as to form a layer between the transparent common electrode 21 and the segment electrode 25. In addition, segment electrodes 25 each corresponding to a segment are arranged in contact with the microcapsule 22, and blue or white is displayed for each segment by the operation of a display driver 29 described later.

The transparent common electrode 21 is configured as one electrode extending over all the segments, is connected to the common electrode 28 provided on the glass substrate 15, and is maintained at the same potential as the common electrode 28. The common electrode 28 and the segment electrode 25 are connected to a display driver 29, and a potential is applied to the common electrode 28, the segment electrode 25 and the transparent common electrode 21 under the control of the display driver 29.
The display driver 29 is included in the control circuit housed in the hollow portion 2C (FIG. 2) of the watch case 2, and appropriately applies a driving voltage to the common electrode 28 and the segment electrode 25. The electric potential and the electric potential of the segment electrode 25 are controlled. The display driver 29 has a built-in booster circuit and boosts a voltage (for example, 3V or 1.5V) supplied from a power source (not shown) to generate a + 12V voltage, and this + 12V voltage or 0V This voltage may be applied to the segment electrode 25 and the transparent common electrode 21 as a drive voltage.

Then, when a potential difference is generated between the transparent common electrode 21 and the segment electrode 25 under the control of the display driver 29, the electrophoretic particles 23 move according to the direction of the electric field between the transparent common electrode 21 and the segment electrode 25, The color state of the microcapsule 22 changes.
For example, when the segment electrode 25 is set to 0 V potential (ground potential) and a positive drive voltage is supplied to the common electrode 28 to be a positive potential, an electric field from the transparent common electrode 21 toward the segment electrode 25 is generated. Therefore, the positively charged electrophoretic particles 23 (blue particles) move toward the segment electrode 25 side, and accordingly, the white electrophoretic dispersion liquid 24 moves toward the transparent common electrode 21 side. As a result, the electrophoretic particles 23 are biased toward the segment electrode 25 </ b> A in the microcapsule 22, and the white electrophoretic dispersion liquid 24 is biased toward the transparent common electrode 21, so that it appears white from the front side of the display panel 5. . Therefore, this segment displays white.

Further, for example, when the common electrode 28 is set to 0 V potential and the segment electrode 25 is set to positive potential, an electric field is generated from the segment electrode 25 toward the transparent common electrode 21, and the microcapsule 22 in contact with the segment electrode 25 The positively charged electrophoretic particles 38 move to the transparent common electrode 21 side, and accordingly, the white electrophoretic dispersion liquid 24 moves to the segment electrode 25 side. As a result, since the blue electrophoretic particles 23 are biased toward the transparent common electrode 21 as in the segment 26B shown in FIG. 4, the microcapsules 22 viewed from the transparent common electrode 21 have a blue color. Thereby, the segment 26B displays blue.
Further, for example, in the state where the common electrode 28 and the segment electrode 25 are at the same potential as in the segment 26A shown in FIG. 4, the electrophoretic particles 23 and the electrophoretic dispersion liquid 24 do not move, and the display of the segment is the same as before. The state of is maintained.
Then, after the electrophoretic particles 23 and the electrophoretic dispersion liquid 24 of the microcapsule 22 are moved by the potential difference between the transparent common electrode 21 and the segment electrode 25 as described above, a voltage is applied to the common electrode 28 and the segment electrode 25. Even in the non-applied state, the positions of the electrophoretic particles 23 and the electrophoretic dispersion liquid 24 are kept in the same state for a long time (for example, several tens of minutes to several hours). In other words, even if the display driver 29 does not operate, the microcapsule 22 maintains the display state, and thus it can be said that the display unit 5A has display retainability.
Here, when the display panel 5 is configured as an active matrix display system, TFTs (thin film transistors) using amorphous silicon or polysilicon are arranged in a dot matrix below the segment electrodes 25, and this TFT Is changed by the display driver 29, the potential of each segment electrode 25 is changed, and blue or white can be displayed for each segment to display an image.

As described above, in the wristwatch 1 according to the first embodiment to which the present invention is applied, the transparent electrode layer 12, the microelectrodes are included in the moisture-proof structure including the windshield 10, the glass substrate 15, and the sealing material 17. Since the display unit 5A including the capsule layer 13 and the electrode layer 14 is accommodated, moisture can be reliably prevented from entering the display unit 5A. In particular, in the display unit 5A configured as an electrophoretic display panel, it is desirable to use the microcapsule 22 in an environment where moisture from the outside does not enter. However, if the microcapsule 22 is housed in a moisture-proof structure as described above, The stable operation of the period is possible.
And since the windshield glass 10 which comprises the surface of the timepiece case 2 serves as a part of moisture-proof structure, it is necessary to provide another plate-shaped member etc. which comprise a moisture-proof structure inside the windshield 10 There is no. For this reason, the moisture-proof structure containing the display unit 5A can be made very thin, and the wristwatch 1 can be thinned. Therefore, the portability and design of the wristwatch 1 can be improved. Furthermore, by making the wristwatch thinner, it is possible to improve the wearing feeling. Furthermore, since the display unit 5A is close to the surface of the windshield 10, there is an advantage that the display visibility of the display unit 5A is high.
In addition, since the moisture-proof structure is a simple configuration including the windshield glass 10, the glass substrate 15, and the sealing material 17, it is easy to reduce the thickness and a more reliable moisture-proof effect can be expected.

[Second Embodiment]
FIG. 5 is a cross-sectional view showing a configuration of a wristwatch 1 according to the second embodiment to which the present invention is applied. FIG. 5 corresponds to a cross section taken along line AA of FIG.
The wristwatch 1 according to the second embodiment has a configuration in which the display panel 5 is disposed in the time display window 4 as in the first embodiment. In this display panel 5, a transparent substrate 31 as a translucent substrate is disposed on the back side of the windshield 10, and the transparent electrode layer 12 is formed on the back side of the transparent substrate 31. Therefore, as shown in FIG. 5, the display unit 5 </ b> A is sandwiched between the transparent substrate 31 and the glass substrate 15.

FIG. 6 is an enlarged cross-sectional view of a main part showing the configuration of the display panel 5. In FIG. 6, only the electrodes in contact with the microcapsules are hatched, and the other portions are omitted to avoid the drawing from becoming complicated.
As shown in FIG. 6, the display panel 5 has a transparent substrate 31 disposed on the back side of the windshield 10, and the transparent electrode layer 12 formed by vapor deposition, coating or printing on the back side of the transparent substrate 31. And the microcapsule layer 13 between the electrode layer 14 formed on the glass substrate 15.
Then, in a large number of microcapsules 22 sandwiched between the transparent common electrode 21 of the transparent electrode layer 12 and the segment electrode 25 of the electrode layer 14, the electrophoretic particles 23 (FIG. 4) and the electrophoretic dispersion liquid 24 (FIG. 4). The image is displayed by moving.

  In the wristwatch 1 according to the second embodiment, the transparent electrode layer 12 is formed on the surface of the transparent substrate 31 by vapor deposition, coating, or printing, so that the substrate that supports the transparent electrode layer 12 and the windshield 10 are separated. Is possible. For this reason, it is not necessary to use the windshield glass 10 in the process of forming the transparent electrode layer 12, and for example, even if the shape and material of the windshield glass 10 are not suitable for the process of forming the transparent electrode layer 12, they can be manufactured without any problems. Therefore, manufacturing efficiency can be improved. On the other hand, since it is not necessary to consider the convenience in the process of forming the transparent electrode layer 12 with respect to the windshield 10, priority can be given to aesthetics, ease of processing, etc. as a windshield, improvement in design, and cost reduction. Can be achieved. Further, since the transparent substrate 31 is accommodated in a moisture-proof structure composed of the windshield glass 10, the glass substrate 15, and the sealing material 17, it is not necessary to provide the moisture-proof function to the transparent substrate 31 itself. Therefore, the transparent substrate 31 only needs to function as a substrate on which the transparent electrode layer 12 is formed, and includes a synthetic resin such as a PET (polyethylene terephthalate) resin regardless of moisture permeability or moisture permeability. Various materials can be used.

  Thus, according to the structure which concerns on 2nd Embodiment, since a freedom degree increases greatly about the material and shape of the windshield 10 and the transparent substrate 31 as a board | substrate which forms the transparent electrode layer 12, Various effects such as improvement in production efficiency, cost reduction, and improvement in design can be expected. Furthermore, since the transparent substrate 31 is not required to have strength or moisture impermeability exceeding the function as a substrate on which the transparent electrode layer 12 is formed, the transparent substrate 31 may be made very thin. As a result, the display panel 5 can be thinned, and thus the wristwatch 1 can be thinned.

[Third Embodiment]
FIG. 7 is a cross-sectional view showing a configuration of a wristwatch 1 according to a third embodiment to which the present invention is applied. FIG. 7 corresponds to a cross section taken along line AA of FIG. FIG. 8 is an enlarged sectional view of the main part. In FIG. 8, only the electrodes in contact with the microcapsules are hatched, and the other portions are omitted to avoid the drawing from becoming complicated.
The wristwatch 1 according to the third embodiment has a configuration in which a display panel 5 is disposed in the time display window 4 as in the first and second embodiments. In the display panel 5, a transparent substrate 31 is disposed on the rear surface side of the windshield 10, and the transparent electrode layer 12 is formed on the rear surface of the transparent substrate 31. Further, a flexible substrate 33 is used as a substrate for forming the electrode layer 14, a moisture-proof plate 34 is disposed on the back side of the flexible substrate 33, and the moisture-proof plate 34 and the windshield glass 10 are tightly connected via the sealing material 17. It is joined.

  In the configuration according to the third embodiment, the windshield glass 10, the moistureproof plate 34, and the sealing material 17 constitute a moistureproof structure. The moisture-proof plate 34 is a plate-like member made of glass, metal, or synthetic resin and has moisture permeability, and is tightly bonded to the sealing material 17. The flexible substrate 33 is a substrate made of synthetic resin such as polyimide resin, and the electrode layer 14 is formed on the surface of the flexible substrate 33 by vapor deposition, coating, or printing.

In the wristwatch 1 according to the third embodiment, since the electrode layer 14 is formed on the flexible substrate 33, it is not necessary to use the glass substrate 15 in the process of forming the electrode layer 14, and display is performed using an optimum material. The manufacturing efficiency of the panel 5 can be increased. Moreover, since the flexible substrate 33 is accommodated in a moisture-proof structure including the windshield glass 10, the moisture-proof plate 34, and the sealing material 17, it is not necessary to give the flexible substrate 33 itself a moisture-proof function. Therefore, the flexible substrate 33 only needs to function as a substrate on which the electrode layer 14 is formed, and various materials can be used regardless of moisture permeability or moisture permeability.
Therefore, according to the configuration according to the third embodiment, the degree of freedom for the material and shape of the substrate on which the electrode layer 14 is formed is dramatically increased, so that the production efficiency, cost reduction, design improvement, etc. can be improved. Various effects can be expected.
Furthermore, since the flexible substrate 33 is not required to have strength or moisture impermeability exceeding the function as a substrate on which the electrode layer 14 is formed, the flexible substrate 33 may be very thin. As a result, the display panel 5 can be thinned, and thus the wristwatch 1 can be thinned.

[Fourth Embodiment]
FIG. 9 is a cross-sectional view showing a configuration of a wristwatch 1 according to a fourth embodiment to which the present invention is applied. FIG. 9 corresponds to a cross section taken along line AA of FIG.
The wristwatch 1 according to the fourth embodiment has a configuration in which the display panel 5 is disposed in the time display window 4 as in the first embodiment. In the display panel 5, a recess 18A concentric with the windshield 18 is formed on the back side of the windshield 18 fitted in the time display window 4, and the display 5A is disposed in the recess 18A. And the sealing material 17 is provided in the periphery of the recessed part 18A, and the peripheral part of the recessed part 18A and the peripheral part of the glass substrate 15 are closely joined via this sealing material 17.
Here, the depth of the recess 18A is arbitrary, but as an example, there is a configuration in which the depth is equal to the thickness of the display unit 5A.
As described above, the display unit 5A housed in the recess 18A provided on the back surface of the windshield glass 18 is housed in a moisture-proof structure constituted by the windshield glass 18, the glass substrate 15, and the sealing material 17. .
According to the configuration of the fourth embodiment, the display unit 5A is disposed in the recess 18A formed in the windshield 18 so that the display panel 5 can be made thinner and the wristwatch 1 can be made thinner. Can be planned.

[Fifth Embodiment]
FIG. 10 is a cross-sectional view showing a configuration of a wrist watch 40 according to a fifth embodiment to which the present invention is applied. The wristwatch 40 according to the fifth embodiment includes a watch case 41 in which a time display window 42 is formed and a windshield 44 fitted in the time display window 42. The windshield glass 44 is tightly joined to the inner peripheral surface of the time display window 44 via a packing 43 disposed along the groove 41 </ b> A of the watch case 41 and protrudes to the inner peripheral surface of the time display window 44. It is supported by the portion 41B.

The windshield glass 44 provided in the wristwatch 40 has a convex curved surface on the surface side, and constitutes the display panel 50 together with the display unit 50A and the glass substrate 48 having a shape along the curved surface.
The display unit 50A includes a transparent electrode layer 45 formed on the back surface of the windshield glass 44, an electrode layer 47 formed on the surface of the glass substrate 48, and a microcapsule layer sandwiched between the transparent electrode layer 45 and the electrode layer 47. 46. And the peripheral part of the windshield glass 44 and the peripheral part of the glass substrate 48 are closely joined via the sealing material 51, and this windshield glass 44, the glass substrate 48, and the sealing material 51 comprise a moisture-proof structure, The display unit 50A is accommodated in the moisture-proof structure.
The transparent electrode layer 45 and the electrode layer 47 are connected to a control circuit (not shown) disposed in the hollow portion 41C of the watch case 41 via the flexible substrate 49.

  As shown in FIG. 10, in a wristwatch using a curved windshield glass, each part of the display unit 50 </ b> A is formed in a curved surface in accordance with the curved surface of the windshield glass 44, so that it is the same as in the first to fourth embodiments. The effect is obtained. The transparent electrode layer 45 and the electrode layer 47 constituting the display unit 50A are formed by a method such as vapor deposition, coating, or printing, and the microcapsule layer 46 is configured by arranging minute microcapsules. For this reason, it is possible to make the display part 50A into a curved surface according to the windshield 44 and the glass substrate 48. As described above, the present invention can be applied to a wristwatch provided with a curved windshield, and the wristwatch can be thinned together with a thin display panel.

As mentioned above, although this invention was demonstrated based on embodiment, this invention is not limited to this.
For example, in the first to fifth embodiments, the case where the particle movement type electronic paper using the electrophoretic particles is used as the display panel has been described as an example. However, the present invention is not limited thereto. Instead, for example, an electronic powder type or twist ball type particle transfer type electronic paper, a liquid crystal panel including a cholesteric liquid crystal, or an organic EL (Electro-Luminescence) panel may be used.
When using electronic particle type or twist ball type particle transfer type electronic paper, a display body is arranged in place of the microcapsule layers 13 and 46, and the display state of the display body is the same as that of the transparent electrode layers 12 and 47. What is necessary is just to set it as the structure controlled by applying a voltage suitably to an electrode and the segment electrode of the electrode layers 14 and 47. FIG.
In the case of using a liquid crystal panel, the liquid crystal may be arranged at the positions of the microcapsule layers 13 and 46. In this case, the windshields 10, 18, and 44 preferably have an ultraviolet prevention function of preventing or transmitting ultraviolet rays by blocking or reflecting ultraviolet rays, and the windshield material itself has an ultraviolet prevention function, or ultraviolet rays What provided the film or layer which has a prevention function is desirable. When an organic EL panel is used, the transparent electrode layers 12 and 45 may be anodes, the electrode layers 14 and 47 may be cathodes, and a light emitting layer may be disposed at the microcapsule layers 13 and 46.
Further, it is also possible to display in a dot matrix as a configuration in which TFTs using amorphous silicon or polysilicon are arranged in a dot matrix below the electrode layers 14 and 47. That is, instead of the segment electrode 25 provided on the upper surface side of the glass substrate 15 shown in FIG. 3 or the flexible substrate 33 shown in FIG. 8, a TFT active matrix circuit is configured on the upper surface of the glass substrate 15 or flexible substrate 33. A transistor layer may be disposed, and a dot matrix electrode may be disposed on the upper surface side. With this configuration, the present invention can be applied to a TFT active matrix driving type display panel.

For example, in the said 1st-5th embodiment, although the material of the member which comprises the display panels 5 and 50 is specified, this invention is not limited to this, For example, the windshields 10, 18, and 44 Instead, a windshield made of synthetic resin having impermeableness may be used.
In the first to fifth embodiments, the example in which the watch case and the back cover are configured as separate bodies has been described. However, a so-called one-piece exterior case in which the watch case and the back cover are integrated. May be used. In the first to fifth embodiments, the example using the circular watch case has been described. However, the present invention is not limited to this. For example, a square watch case may be used. Furthermore, in the first to fifth embodiments, the case where the present invention is applied to a wristwatch has been described. However, the present invention is not limited to this, and can be widely applied to various watches such as a table clock, a wall clock, a wall clock, a pocket watch, and a stopwatch. The present invention is applicable to a radio timepiece that receives a radio wave (for example, JJY) indicating a standard time and corrects the time regardless of whether it is a portable type or a fixed type. Furthermore, the present invention can be widely applied to electronic devices including a computer (including a portable computer such as a PDA), a cellular phone, and a portable audio device.

It is a front view of the wristwatch concerning a 1st embodiment to which the present invention is applied. It is sectional drawing of the wristwatch which concerns on 1st Embodiment. It is principal part sectional drawing which shows the structure of a display panel. It is a principal part expanded sectional view which shows the structure of a display part. It is sectional drawing of the wristwatch which concerns on 2nd Embodiment. It is a principal part expanded sectional view which shows the structure of a display panel. It is sectional drawing of the wristwatch which concerns on 3rd Embodiment. It is a principal part expanded sectional view which shows the structure of a display panel. It is sectional drawing of the wristwatch which concerns on 4th Embodiment. It is sectional drawing of the wristwatch which concerns on 5th Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,40 ... Wristwatch (electronic device, clock), 2,41 ... Clock case (case), 2A, 41A ... Groove, 2B, 41B ... Reception part 4, 42 ... Time display window (window), 5, 50 ... Display panel, 5A, 50A ... display section, 10, 44 ... windshield (windshield), 11, 43 ... packing, 12, 45 ... transparent electrode layer, 13, 46 ... microcapsule layer, 14, 47 ... electrode layer, 15 48 ... Glass substrate (moisture-proof plate), 17 ... Sealing material (side wall), 21 ... Transparent common electrode (first electrode), 22 ... Microcapsule (display), 23 ... Electrophoretic particles, 24 ... Electrophoresis Dispersion, 25 ... segment electrode (second electrode), 26 ... segment, 31 ... transparent substrate (translucent substrate), 33 ... flexible substrate (substrate), 34 ... moisture-proof plate, P ... blindfold printing (hiding part) .

Claims (15)

In an electronic device provided with a display unit that is visible through the windshield in a case having a window with a windshield attached,
The display unit is accommodated in a moisture-proof structure configured by the windshield and a structure part joined to the windshield in the case.
Electronic equipment characterized by   The structure part includes a moisture-impermeable moisture-proof board that covers a lower surface of the display part in the case, and a moisture-impermeable sidewall that is joined to the windshield and the moisture-proof board and surrounds the display part. The electronic device according to claim 1, wherein the electronic device is configured.   The display unit is configured by sandwiching a display body between a first electrode having translucency and a second electrode facing the first electrode, and the first and second electrodes are used to 3. The electronic apparatus according to claim 1, wherein an image is displayed by exerting an electrical action on the display body.   The electronic device according to claim 3, wherein the first electrode is formed on a back surface of the windshield, and the second electrode is formed on a surface of the moisture-proof plate.   The said 1st electrode is formed in the translucent board | substrate arrange | positioned so that it may overlap with the back surface of the said windshield, The said 2nd electrode was formed in the surface of the said moisture-proof board, The characterized by the above-mentioned. Electronic equipment.   The first electrode is formed on a translucent substrate disposed on the back surface of the windshield, and the second electrode is formed on a substrate disposed on the moisture-proof plate. The electronic device according to claim 3.   The electronic device according to claim 6, wherein the substrate is made of a synthetic resin.   The electronic device according to claim 3, wherein the display body is configured as a liquid crystal.   The electronic device according to claim 1, wherein the display unit is configured as particle movement type electronic paper.   The electronic apparatus according to claim 3, further comprising a thin layer transistor as the second electrode.   The electronic device according to claim 1, wherein a concealing portion that conceals the moisture-proof structure so as to be invisible through the windshield is provided in the windshield.   The electronic device according to claim 1, wherein the windshield reduces or suppresses irregular reflection of visible light on a surface thereof.   The electronic device according to claim 1, wherein the windshield is formed on a curved surface.   The electronic device according to claim 1, wherein a recess capable of accommodating at least a part of the display unit is formed on a rear surface of the windshield.   The electronic device according to claim 1, wherein the electronic device is configured as a clock that displays time on the display unit.

Images