4. Horology: time measuring systems or devices
  5. Displays or display device details
  6. Optical

Electronic watch

Horology: time measuring systems or devices – Displays or display device details – Optical

Reexamination Certificate

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Details

C349S014000, C349S069000, C349S097000, C349S108000

Reexamination Certificate

active

06252829

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to an electronic watch such as a wristwatch, a stopwatch and the like, for counting and presenting time.
2. Description of Related Art
Electronic watches that employ a flat display such as a liquid crystal display to present numeric information and the like thereon are well known. For example, an electronic watch employing a liquid crystal display comprises a pair of polarizers
52
and
53
with a liquid crystal element
51
interposed therebetween, and a light emitting element
54
arranged on the underside of the polarizer
53
as shown in FIG.
21
. The pair of polarizers
52
and
53
are arranged such that their polarization axes are mutually perpendicular.
In such a conventional electronic watch, the ambient light is used to present numeric information and the like when there is light (daytime) and the light emitting element
54
emits light as necessary to present numeric information and the like when there is not light (nighttime). To present numeric information, a predetermined ON voltage is applied between electrodes of the liquid crystal element
51
, and an area where no voltage is applied or where an OFF voltage is applied is a background of white or any other appropriate color. As shown, the area where the ON voltage is applied to present information is represented by “ON” and the area where no voltage or the OFF voltage is applied is represented by “OFF.”
When the ambient light is used to present the background (namely with the liquid crystal element
51
at an OFF state), light linearly polarized in a direction parallel to the page of
FIG. 21
, out of the ambient light, namely the natural light, is transmitted through the polarizer
52
as represented by an arrow P, and is twisted by 90° in polarization direction by the liquid crystal element
51
at an OFF state, thereby becoming light linearly polarized in a direction perpendicular to the page of FIG.
21
. The linearly polarized light is then transmitted through the polarizer
53
, and is scattered on the surface of the light emitting element
54
, and part of the scattered light is transmitted through the polarizer
53
, liquid crystal element
51
and polarizer
52
in that order, and is presented outside, and the background is thus recognized as a white background.
When the ambient light is used to present numeric information and the like (namely with the liquid crystal element
51
at an ON state), light linearly polarized in a direction parallel to the page of
FIG. 21
, out of the ambient light, is picked out by the polarizer
52
, and is transmitted through the liquid crystal element
51
as represented by an arrow Q. Since the liquid crystal element
51
is at an ON state, the linearly polarized light ray keeps its polarization direction parallel to the page of
FIG. 21
without being twisted, and is thus absorbed by the polarizer
53
. As a result, this area is externally recognized as “black.”
In this way, numbers and the like in black, indicating time and other information, are presented on the white background when the ambient light is used for presentation.
On the other hand, when the emission of the light emitting element
54
is used to present the background (namely with the liquid crystal element
51
at an OFF state), as represented by an arrow C, light linearly polarized in a direction perpendicular to the page of
FIG. 21
, out of the emission of the light emitting element
54
, namely the natural light, is picked out by the polarizer
53
, and is twisted by 90° in polarization direction by the liquid crystal element
51
at an OFF state, thereby becoming light linearly polarized in a direction parallel to the page of
FIG. 21
, and is transmitted through the polarizer
52
to be recognized externally. The color of the light recognized is the emission color of the light emitting element
54
, and is typically white.
When the emission of the light emitting element
54
is used to present numeric information and the like (namely with the liquid crystal element
51
at an ON state), as represented by an arrow D, light linearly polarized in a direction perpendicular to the page of
FIG. 21
, out of the emission of the light emitting element
54
, is picked out by the polarizer
53
, and is transmitted through the liquid crystal element
51
at an ON state and reaches the polarizer
52
. Since the linearly polarized light then fails to coincide with the polarization direction of the polarizer
52
, it is absorbed by the polarizer
52
, and as a result, this area is externally recognized as “black.”
In this way, to present information using the emission of the light emitting element
54
, numbers and the like in black, indicating time and other information, are presented on the background of the emission color of the light emitting element
54
.
As shown in
FIG. 21
, the light emitting element conventionally emits a monochromatic light in the watch of the type that presents information using the light emitted by the light emitting element disposed beneath the polarizer. The background color is thus monochromatic, for example, white only when the background color is presented by the emission color as represented by the arrow C in FIG.
21
. Although the mode of display works in a simple presentation of the numeric information and the like, the mode of display may not be sufficient in the job of calling a viewer's attention.
FIG. 10
shows a major portion of an embodiment of a conventional electronic watch, particularly of a display element of the electronic watch. The electronic watch of this embodiment comprises the liquid crystal element
8
, a first polarizer
11
arranged on one side of the liquid crystal element
8
, a second polarizer
15
opposed to the first polarizer
11
with the liquid crystal element
8
interposed therebetween, and the back light
28
.
The conventional watch includes the second polarizer
15
, which is an ordinary polarizer like the first polarizer
11
, and is arranged between the liquid crystal element
8
and the back light
28
. This embodiment is also different from the embodiment shown in
FIG. 21
in that the back light
28
of this embodiment emits lights of different colors in a plurality of areas while the conventional back light
54
emits a monochrome light from its entire surface.
The mode of display shown in
FIG. 10
, namely, the travel of the natural ambient light and of the emission of the back light
28
, remains unchanged from that shown in FIG.
21
. When the natural ambient light is used, the background is presented by irregularly reflected light from the back light
28
as represented by an arrow P, and the numeric information and the like are presented in black as represented by an arrow Q. When the emission of the back light
28
is used, the background is presented in the emission color of the back light
28
as represented by an arrow C, and the numeric information and the like are presented in “black” as represented by an arrow D.
In this watch, the back light
28
is provided with a plurality of emission areas S
1
, S
2
and S
3
, and colors externally recognized may be emission colors of areas S
1
, S
2
and S
3
in the optical state represented by the arrow C. More specifically, the background colors with the back light
28
lit may be separately presented in yellowish green, red and orange or other colors may be used. The mode of display in which the background color on the display screen is switched between a white and another particular color such as yellowish green depending on whether the back light
28
is lit or extinguished is novel and appealing to the viewer.
As understood from the above discussion, numeric numbers and the like are simply presented in “black” in the conventional electronic watch both when the natural light is used and when the emission of the light emitting element is used, and the mode of display for numeric information and the like is simple.
SUMMARY OF THE INVENTION
The present invention has been developed in view of th

Chiba Satoshi

Inventor

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Matsui Tsuyoshi

Inventor

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Miyazawa Eiichi

Inventor

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Miska Vit

Examiner

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Oliff & Berridg,e PLC

Law Firm

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Seiko Epson Corporation

Corporate Assignee

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