JP4089373B2 - Liquid crystal display device and electronic device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid crystal display device and an electronic device applied to various devices such as a wristwatch, a mobile phone, and automotive instruments.
[0002]
[Prior art]
In a liquid crystal display device provided in a conventional wristwatch or the like, a reflective liquid crystal display using outside light such as sunlight is performed, and when the surroundings become dark, it is transmitted by turning on a backlight provided inside. A transflective liquid crystal display device that performs a liquid crystal display is known.
The liquid crystal display device is generally used to perform white (bright) / black (dark) display by switching the transmission / non-transmission of light using the orientation of the liquid crystal sandwiched between polarizing plates. A liquid crystal display device that includes a color filter and performs color display is known (see, for example, Patent Document 1).
In addition, a liquid crystal display device that includes a color polarizing plate and performs color display is known (see, for example, Patent Document 1 and Patent Document 2).
[0003]
[Patent Document 1]
Japanese Patent No. 3107400
[Patent Document 2]
JP 2001-83503 A
[0004]
[Problems to be solved by the invention]
However, as in Patent Document 1, when a color filter is provided in a liquid crystal display device and coloring is performed on a white (bright) display portion, in order to realize a dark color design, if a dark color filter is provided, There has been a problem that it is difficult to ensure the transmittance of emitted light based on the backlight. In addition, in the liquid crystal display device, since the color filter covers the black (dark) display portion, the black (dark) display is blurred and lacks sharpness.
Further, as in Patent Document 2, when a liquid crystal display device is provided with a color polarizing plate to perform color display, light emitted from the backlight based on light other than the color components peculiar to the color polarizing plate is blocked. There is a problem that the amount of light for color display is small and it is difficult to express vivid colors.
[0005]
The subject of this invention is providing the liquid crystal display device and electronic device which can perform a liquid crystal display by vivid coloring expression.
[0006]
[Means for Solving the Problems]
  In order to solve the above-described problems, the present invention includes the following components. Note that the components shown below are indicated by parentheses in the configuration corresponding to the embodiment and the reference numerals of the drawings..
[0007]
  Invention of Claim 1Is
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A polarizing plate disposed on the viewing side of the liquid crystal cell;
  A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
  A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
  The backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, while the color of the first color polarizing plate and the second color polarizing plate are the same. The color polarizing plate is switched between colors to emit light.
[0008]
  The invention according to claim 2
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A polarizing plate disposed on the viewing side of the liquid crystal cell;
  A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
  A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
  The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
  The voltage application unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light transmission, the phase of the second color polarizing plate is light blocking, and the non-voltage application unit in the liquid crystal cell is The phase of the first color polarizing plate is light blocking, and the phase of the second color polarizing plate is light transmitting.It is characterized by that.
[0009]
  Claim3Described inventionIs
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A polarizing plate disposed on the viewing side of the liquid crystal cell;
  A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
  A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
  The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
  The voltage applying unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light blocking, the phase of the second color polarizing plate is light transmitting, and the non-voltage applying unit in the liquid crystal cell is The phase of the first color polarizing plate is light transmission, and the phase of the second color polarizing plate is light blocking.
[0010]
  Claim4The described invention
  4. The liquid crystal display device according to claim 1, wherein a transflective plate or a mesh panel is disposed between the second color polarizing plate and the backlight. 5. To do.
[0011]
  Claim5Described inventionIs
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
  A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A backlight disposed on the side opposite to the viewing side of the polarizing plate;
  With
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, while the color of the first color polarizing plate and the second color polarizing plate are the same. The color polarizing plate is switched between colors to emit light.
[0012]
  Claim6The described invention
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
  A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A backlight disposed on the side opposite to the viewing side of the polarizing plate;
  With
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
  The backlight is,Emitting a color of the same color as one of the first color polarizing plate and the second color polarizing plate;
  The voltage application unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light transmission, the phase of the second color polarizing plate is light blocking, and the non-voltage application unit in the liquid crystal cell is The phase of the first color polarizing plate is light blocking, and the phase of the second color polarizing plate is light transmitting.It is characterized by that.
[0013]
  Claim7Described inventionIs
  A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
  A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
  A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
  A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
  A backlight disposed on the side opposite to the viewing side of the polarizing plate;
  With
  The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
  The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
  The voltage applying unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light blocking, the phase of the second color polarizing plate is light transmitting, and the non-voltage applying unit in the liquid crystal cell is The phase of the first color polarizing plate is light transmission, and the phase of the second color polarizing plate is light blocking.
[0014]
  Claim8The described invention
  Any one of claims 5 to 7In the described liquid crystal display device,The polarizing plate is a polarizing plate with a transflective plateIt is characterized by.
[0015]
  Claim9Described inventionIs
  Claim 1The liquid crystal display device according to any one of claims 1 to 3 and claims 5 to 7 is arranged in an equipment case.
[0038]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which a liquid crystal display device according to the present invention is applied to a wristwatch as an electronic apparatus will be described in detail with reference to the drawings.
[First Embodiment]
FIG. 1 is a plan view showing a wristwatch of the present invention, and FIG. 2 is an enlarged cross-sectional view of a main part taken along line II-II in FIG.
As shown in FIGS. 1 and 2, a wristwatch 100 that is an electronic device is provided with a watchcase 2 as a device case that houses a watch module 1 that is a liquid crystal display device having a digital display function. A watch glass 3 is attached to the upper center of 2 via a packing 4. Further, a back cover 5 is attached to the lower surface of the watch case 2 via a waterproof ring 6. A bezel 7 is provided on the upper outer periphery of the watch case 2. Furthermore, a watch band B is attached to the watch case 2 via a band shaft 2A.
[0039]
As shown in FIG. 2, the timepiece module 1 includes an upper housing 1a and a lower housing 1b, and a circuit board 8 is disposed between the upper housing 1a and the lower housing 1b.
The upper housing 1 a is provided with a liquid crystal display element 10, an LCD drive unit 11 for driving the liquid crystal display element 10, and the like, and the lower housing 1 b is, for example, a power source for operating the LCD drive unit 11. A battery 12 is incorporated.
The liquid crystal display element 10, the LCD drive unit 11, the battery 12, and the like are electrically connected via the circuit board 8.
[0040]
The liquid crystal display element 10 includes, for example, a liquid crystal cell 13 in which a liquid crystal layer in which a liquid crystal is provided between a pair of upper and lower transparent electrodes (not shown) is sealed between an upper plate glass 13a and a lower plate glass 13b. A transmissive polarizing plate 14 affixed to the upper surface on the viewing side, a color polarizing plate 15 affixed to the lower surface of the liquid crystal cell 13, and a polarizing plate 16 with a transflective plate affixed to the lower surface of the color polarizing plate 15 , Is configured. As the liquid crystal, for example, a twisted nematic (TN) liquid crystal having a twist angle of 90 degrees is used.
The liquid crystal display element 10 displays information such as time and date according to a state in which a voltage is applied between a pair of transparent electrodes (not shown) in the liquid crystal cell 13 as shown in FIG. It is configured.
A backlight 17 that is a light source is disposed on the lower surface side of the liquid crystal display element 10. As the backlight 17, an EL (electroluminescence) element 18 described later, a combination of an LED (light emitting diode) 19 and a light guide plate 20, a combination of an ultraviolet light emitting element 22 and a light guide plate 24 provided with a light emitter 23, and the like. Can be used.
[0041]
Next, an example of a display function and a display pattern in the liquid crystal display element 10 of the timepiece module 1 will be described.
FIG. 3 is an enlarged cross-sectional view showing the configuration of the liquid crystal display element 10 and the backlight 17 in the timepiece module 1 of FIG.
As shown in FIG. 3, the liquid crystal display element 10 includes a liquid crystal cell 13, a transmissive polarizing plate 14 attached to the upper surface on the viewing side of the liquid crystal cell 13, and a color polarization applied to the lower surface of the liquid crystal cell 13. The plate 15 is composed of a polarizing plate 16 with a transflective plate attached to the lower surface of the color polarizing plate 15.
[0042]
The transmissive polarizing plate 14 and the polarizing plate 16 with a transflective plate have a mechanism capable of transmitting only light that vibrates in a vibration direction parallel to the transmission axis unique to the polarizing plate.
The color polarizing plate 15 transmits all light of a specific color (wavelength), and for other colors (wavelengths), only light that vibrates in a vibration direction parallel to the transmission axis unique to the color polarizing plate. It has a mechanism that can penetrate.
Here, the light that passes through the polarizing plate and vibrates in the vibration direction parallel to the transmission axis peculiar to the polarizing plate is referred to as “polarized light”.
The polarizing plate 16 with a transflective plate is obtained by attaching a transflective plate (not shown) to the lower surface of a polarizing plate (not shown), and transmits the polarizing plate out of the light incident on the polarizing plate. The polarized light is reflected by the transflective reflector. Moreover, the polarizing plate 16 with a transflective plate has a function of transmitting light incident from the lower surface side of the transflective plate to the polarizing plate.
[0043]
In the liquid crystal display element 10, the transmission axis of the transmissive polarizing plate 14 and the transmission axis of the transflective polarizing plate 16 are different so that, for example, each transmission axis forms an angle of 90 degrees. A polarizing plate 14 and a polarizing plate 16 with a transflective plate are disposed. In other words, in the liquid crystal display element 10, after the polarized light transmitted through the transmissive polarizing plate 14 is twisted 90 degrees by the TN liquid crystal cell 13 in a normal state where no voltage is applied to an electrode (not shown) in the liquid crystal cell 13, The light enters the polarizing plate 16 with a transflective plate. The incident polarized light is transmitted through the polarizing plate 16 of the transflective polarizing plate 16 and reflected by the transflective plate of the transflective polarizing plate 16. Therefore, when the liquid crystal display element 10 is viewed, the “normally white” arrangement in which the screen looks white is provided.
In addition, for example, the transmission axes of the color polarizing plate 15 and the transmission axis of the polarizing plate 16 with a semi-transparent reflector attached to the color polarizing plate 15 may have an angle of 90 degrees. Further, a color polarizing plate 15 and a polarizing plate 16 with a transflective plate are arranged. That is, for example, the light transmitted through the voltage application unit in the liquid crystal cell 13 is transmitted through the color polarizing plate 15, and the polarizing plate 16 with a transflective plate is blocked. The light transmitted through the non-voltage application portion in the liquid crystal cell 13 is blocked by the color polarizing plate 15 and the light transmitting plate 16 with a transflective plate is light transmissive.
[0044]
In such a liquid crystal display element 10, when external light such as sunlight or indoor light enters from the viewing side where the transmissive polarizing plate 14 is disposed, the external light is transmitted to the transmissive polarizing plate 14, the liquid crystal cell 13, The light passes through the color polarizing plate 15 in this order and reaches the polarizing plate 16 with a transflective plate.
At this time, in the voltage application unit (for example, the LCD display unit 10a in FIG. 1) in the liquid crystal cell 13, the polarized light based on the external light transmitted through the transmissive polarizing plate 14 is transmitted through the voltage application unit as it is, and the color polarization is performed. The plate 15 is reached. The polarized light that has reached the color polarizing plate 15 is transmitted through the color polarizing plate 15 and is blocked by the polarizing plate of the polarizing plate 16 with a transflective plate. Therefore, the position corresponding to the voltage application unit is visually recognized in black from the viewing side. Therefore, for example, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 shown in FIGS. 1 and 9, is displayed in black.
[0045]
On the other hand, in the non-voltage application part (for example, LCD non-display part 10b..., LCD background part 10c in FIG. 1) in the liquid crystal cell 13, polarized light based on external light transmitted through the transmissive polarizing plate 14 is transmitted by the liquid crystal cell 13. It is twisted 90 degrees and reaches the color polarizing plate 15. The polarized light twisted 90 degrees is blocked by the color polarizing plate 15 except for light of a specific color, and only the light of the specific color reaches the polarizing plate 16 with a transflective plate. Then, light of a specific color is transmitted by the polarizing plate of the polarizing plate 16 with a semi-transmissive reflective plate, reflected by the semi-transmissive reflective plate of the polarizing plate 16 with a semi-transmissive reflective plate, and the specific color is visually recognized from the visual side. Will be. Therefore, for example, the LCD non-display portion 10b, which is a non-voltage application portion in the liquid crystal cell 13 and the LCD background portion 10c shown in FIGS. 1 and 9 are displayed by a specific color of the color polarizing plate 15. The Rukoto.
[0046]
Next, in the liquid crystal display element 10 described above, a state when the light light emitted from the backlight 17 disposed on the opposite side to the viewing side is transmitted to the viewing side will be described.
The backlight 17 emits light having the same color as the specific color of the color polarizing plate 15. Here, the similar color is a color having the same color tone, and the light of the similar color is light having a similar main wavelength range constituting the light and a composition ratio of the wavelength range.
When the backlight 17 emits light and the light light is emitted from the backlight 17, the light light is transmitted in the order of the transflective polarizing plate 16, the color polarizing plate 15, the liquid crystal cell 13, and the transmissive polarizing plate 14. Then head toward the viewing side.
At this time, in the voltage application unit in the liquid crystal cell 13, the light of the backlight 17 is polarized by the polarizing plate 16 with a semi-transmissive reflector, reaches the color polarizing plate 15, and has a specific color transmitted through the color polarizing plate 15. Only light passes through the liquid crystal cell 13 as it is and reaches the transmissive polarizing plate 14. The reached specific color light is blocked by the transmissive polarizing plate 14. Therefore, since the light from the backlight 17 does not reach the viewing side at the position corresponding to the voltage application unit, the position is visually recognized as black. Accordingly, the LCD display section 10a, which is a voltage application section in the liquid crystal cell 13 shown in FIGS. 1 and 9, is displayed in black.
[0047]
This is similar to the fact that the LCD display section 10a, which is a voltage application section in the liquid crystal cell 13 of the liquid crystal display element 10, is displayed in black also by the action of external light incident on the liquid crystal display element 10 described above.
In other words, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 10, is displayed in black with both the effect of incident external light and the effect of light from the backlight 17.
[0048]
On the other hand, in the non-voltage application part in the liquid crystal cell 13, the light of the backlight 17 is polarized by the polarizing plate 16 with a semi-transmissive reflector, reaches the color polarizing plate 15, and passes through the color polarizing plate 15. Only the light is twisted 90 degrees by the liquid crystal cell 13 and transmitted, and reaches the transmission type polarizing plate 14. The reached specific color light is transmitted by the transmissive polarizing plate 14. Therefore, at a position corresponding to the non-voltage application unit, the light of a specific color based on the light from the backlight 17 reaches the viewer side. In particular, since the backlight 17 emits light having a color similar to the specific color of the color polarizing plate 15, the polarized light based on the light light reaching the viewing side efficiently reflects the specific color of the color polarizing plate 15. Can have. Accordingly, the LCD non-display portion 10b, which is a non-voltage application portion in the liquid crystal cell 13 and the LCD background portion 10c shown in FIGS. 1 and 9 are displayed by a specific color of the color polarizing plate 15. .
[0049]
This is because the LCD non-display portion 10b, which is a non-voltage application portion in the liquid crystal cell 13 of the liquid crystal display element 10, and the LCD background portion 10c are also colored by the action of external light incident on the liquid crystal display element 10 described above. It is the same as that displayed on the specific color of the board 15.
That is, the LCD non-display portion 10b... And the LCD background portion 10c, which are non-voltage application portions in the liquid crystal cell 13 of the liquid crystal display element 10, have both the effect of incident external light and the effect of light from the backlight 17. The LCD non-display portion 10b... And the LCD background portion 10c can be displayed more clearly with the specific color of the color polarizing plate 15 and displayed in black. The LCD display unit 10a can be displayed more prominently.
[0050]
In this way, the LCD display section 10a, which is a voltage application section in the liquid crystal cell 13 of the liquid crystal display element 10, is displayed in black, and the LCD non-display section 10b, which is a non-voltage application section, and the LCD background section 10c are color-polarized. It is possible to display with a specific color of the plate 15.
[0051]
In the first embodiment, the color polarizing plate 15 is provided on the lower surface side of the liquid crystal cell 13. However, the configuration is not limited thereto, and for example, the configuration shown in FIG. 4 or 5 may be used. .
[0052]
Specifically, for example, as in the first modification shown in FIG. 4, the liquid crystal display element 10 is attached to the liquid crystal cell 13 and the color polarizing plate 15 attached to the upper surface on the viewing side of the liquid crystal cell 13. And a transmissive polarizing plate 14 attached to the upper surface of the color polarizing plate 15 and a polarizing plate 16 with a transflective plate attached to the lower surface of the liquid crystal cell 13.
In the liquid crystal display element 10, the transmission axis of the transmissive polarizing plate 14 and the transmission axis of the transflective polarizing plate 16 are different so that, for example, each transmission axis forms an angle of 90 degrees. The mold polarizing plate 14 and the polarizing plate 16 with a transflective plate are arranged in a “normally white” arrangement.
Further, for example, the transmission axes of the color polarizing plate 15 and the transmission axis of the transmissive polarizing plate 14 attached to the color polarizing plate 15 are different, for example, so that each transmission axis forms an angle of 90 degrees. A color polarizing plate 15 and a transmissive polarizing plate 14 are disposed.
[0053]
Further, for example, as in the second modification shown in FIG. 5, the liquid crystal display element 10 includes a liquid crystal cell 13, and a transmissive polarizing plate 14 attached to the upper surface on the viewing side of the liquid crystal cell 13; A color polarizing plate 15 attached to the upper surface of the transmissive polarizing plate 14 and a polarizing plate 16 with a transflective plate attached to the lower surface of the liquid crystal cell 13 are used.
In the liquid crystal display element 10, the transmission axis of the transmissive polarizing plate 14 and the transmission axis of the transflective polarizing plate 16 are different so that, for example, each transmission axis forms an angle of 90 degrees. The mold polarizing plate 14 and the polarizing plate 16 with a transflective plate are arranged in a “normally white” arrangement.
In addition, for example, the transmission axes of the transmission type polarizing plate 14 and the transmission axis of the color polarizing plate 15 attached to the transmission type polarizing plate 14 are different from each other, for example, so that each transmission axis forms an angle of 90 degrees. A color polarizing plate 15 and a transmissive polarizing plate 14 are disposed.
[0054]
Also in the liquid crystal display element 10 having the arrangement structure as in the first modification and the second modification, the LCD display section which is a voltage application section in the liquid crystal cell 13 of the liquid crystal display element 10 is Since both the action of light and the action of light from the backlight 17 are displayed in black, the LCD display portion can be displayed in black so as to stand out from the periphery.
Further, the LCD non-display portion and the LCD background portion, which are non-voltage application portions in the liquid crystal cell 13 of the liquid crystal display element 10, are both colored external polarizing plates and light beams from the backlight 17. Since the LCD non-display portion and the LCD background portion can be displayed more clearly with the specific color of the color polarizing plate 15, the LCD display portion displayed in black is more prominent. It can be displayed upright.
[0055]
Moreover, in the said 1st Embodiment, it was set as the structure provided with the backlight 17 which is a light source in the lower surface side of the liquid crystal display element 10, However, The backlight 17 is a light source as shown in FIGS. It may be.
[0056]
Specifically, for example, a configuration in which an EL element 18 is provided as a light source may be used as in the third modification shown in FIG. The EL element 18 emits light of the same color as the specific color of the color polarizing plate 15.
Note that a reflective plate may be provided on the lower surface side of the EL element 18 (on the opposite side of the liquid crystal display element 10) so that the emitted light (light light) output from the EL element 18 is directed toward the liquid crystal display element 10 more efficiently. Good.
[0057]
Further, for example, as in the fourth modified example shown in FIG. 7, the LED 19 and the light guide plate 20 may be provided as light sources. The LED 19 emits light of the same color as the specific color of the color polarizing plate 15.
The emitted light (light light) output from the LED 19 is taken into the light-transmitting light guide plate 20, and the taken-in emitted light (light light) is outputted from the entire light guide plate 20 or from a predetermined output position. It is configured to irradiate the liquid crystal display element 10, and the lower surface side of the light guide plate 20 (opposite side of the liquid crystal display element 10) so that the emitted light (light light) is directed more efficiently toward the liquid crystal display element 10 side. ) Is provided with a reflecting plate 21.
[0058]
Further, for example, as in the fifth modification shown in FIG. 8, the light source plate 24 provided with the ultraviolet light emitting element 22 and the light emitter 23 may be used as the light source. The luminous body 23 emits colored light in response to ultraviolet rays output from the ultraviolet light emitting element 22, for example, ultraviolet rays having a wavelength of 350 to 420 nm or 254 to 365 nm, and exhibits a transparent state in a normal state where no ultraviolet rays are irradiated. Is. In particular, the light emitter 23 emits light of the same color as the specific color of the color polarizing plate 15.
The ultraviolet rays output from the ultraviolet light emitting element 22 are taken into a light-transmitting light guide plate 24, and the taken-in ultraviolet rays act on a light emitter 23 provided on the light guide plate 24, causing the light emitter 23 to be color-polarized. Light is emitted in a color similar to the specific color of the plate 15. The emitted light output from the light emitter 23 is configured to irradiate the liquid crystal display element 10, and the lower surface side of the light guide plate 24 (the liquid crystal display element 10) so that the emitted light is directed further toward the liquid crystal display element 10. A reflector 21 is provided on the opposite side.
[0059]
In the liquid crystal display element 10 having such an arrangement structure as in the third to fifth modifications, as in the first embodiment, the LCD serving as a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 10 is used. The display portions 10a... Can be displayed in black, and the LCD non-display portions 10b... That are non-voltage application portions and the LCD background portion 10c can be displayed in a specific color of the color polarizing plate 15.
The liquid crystal display element 10 in the third to fifth modifications shown in FIGS. 6 to 8 includes the transmissive polarizing plate 14 and the liquid crystal cell of the liquid crystal display element 10 in the first embodiment shown in FIG. 13, the arrangement structure of the color polarizing plate 15 has been described as an example. However, the present invention is not limited to this, and the liquid crystal display element 10 having the configuration in the first and second modifications shown in FIGS. 4 and 5 may be used. Good.
[0060]
Thus, in the first embodiment and the first to fifth modifications thereof, as shown in FIG. 9, the LCD display unit 10a, which is a voltage application unit, is displayed in black, and the non-voltage application unit The LCD non-display portion 10b and the LCD background portion 10c can be displayed with the specific color of the color polarizing plate 15.
[0061]
In the liquid crystal display element 10 according to the first embodiment and the first to fifth modifications thereof, the transmission axis of the transmissive polarizing plate 14 and the transmission axis of the transflective polarizing plate with polarizing plate 16 have the same phase. If the transmissive polarizing plate 14 and the polarizing plate 16 with a transflective plate are arranged as described above, the LCD display portion 10a which is a voltage application portion is displayed by a specific color of the color polarizing plate 15 and is a non-voltage application portion. It is possible to perform “normally black” type display (see FIG. 15 described later) in which the LCD non-display portion 10b and the LCD background portion 10c are displayed in black.
[0062]
[Second Embodiment]
Next, a second embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the same part as 1st Embodiment, and only a different part is demonstrated.
[0063]
As shown in FIG. 10, the wristwatch 200 includes a liquid crystal display element 30 in the upper housing 1a of the timepiece module 1, and the liquid crystal display element 30 is, for example, between an upper plate glass 13a and a lower plate glass 13b. A liquid crystal cell 13 in which a liquid crystal layer provided with a liquid crystal is sealed between a pair of upper and lower transparent electrodes (not shown); a first transmissive polarizing plate 14a attached to the upper surface on the viewing side of the liquid crystal cell 13; The color polarizing plate 15 is attached to the lower surface of the cell 13 and the second transmissive polarizing plate 14 b is attached to the lower surface of the color polarizing plate 15. As the liquid crystal, for example, a twisted nematic (TN) liquid crystal having a twist angle of 90 degrees is used.
The liquid crystal display element 30 is configured to display information such as time and date according to a state in which a voltage is applied between a pair of transparent electrodes (not shown) in the liquid crystal cell 13.
In addition, a transflective plate 31 is disposed on the lower surface side of the liquid crystal display element 30, and a backlight 17 that is a light source is disposed on the lower surface side of the transflective plate 31. The transflective plate 31 has a function of reflecting light incident from the liquid crystal display element 30 side (viewing side) and transmitting light incident from the backlight 17 side.
[0064]
Next, examples of display functions and display patterns in the liquid crystal display element 30 of the wristwatch 200 will be described.
FIG. 11 is an enlarged cross-sectional view showing the liquid crystal display element 30, the transflective plate 31, and the backlight 17 in the wristwatch 200 of FIG.
As shown in FIG. 9, the liquid crystal display element 30 is attached to the liquid crystal cell 13, the first transmission type polarizing plate 14 a attached to the upper surface on the viewing side of the liquid crystal cell 13, and the lower surface of the liquid crystal cell 13. The color polarizing plate 15 and the second transmissive polarizing plate 14b attached to the lower surface of the color polarizing plate 15 are configured.
[0065]
In the liquid crystal display element 30, the first transmissive polarizing plate 14a and the first transmissive polarizing plate 14a are arranged so that the transmission axis of the first transmissive polarizing plate 14a and the transmission axis of the second transmissive polarizing plate 14b have the same phase. Two transmissive polarizing plates 14b are arranged. That is, in the liquid crystal display element 30, in a normal state where no voltage is applied to an electrode (not shown) in the liquid crystal cell 13, the polarized light transmitted through the first transmission type polarizing plate 14a is twisted 90 degrees by the TN liquid crystal cell 13. After that, the light enters the second transmissive polarizing plate 14b. The incident polarized light is blocked by the second transmissive polarizing plate 14b. Therefore, when the liquid crystal display element 30 is viewed, the “normally black” arrangement is obtained in which the screen appears black.
Further, for example, each transmission axis forms an angle of 90 degrees so that the transmission axis of the color polarizing plate 15 and the transmission axis of the second transmission type polarizing plate 14b attached to the color polarizing plate 15 are different. As described above, the color polarizing plate 15 and the second transmission type polarizing plate 14b are arranged. That is, for example, the light transmitted through the voltage application unit in the liquid crystal cell 13 is blocked by the color polarizing plate 15, and the second transmissive polarizing plate 14b is light transmissive. Further, the light transmitted through the non-voltage application portion in the liquid crystal cell 13 is transmitted through the color polarizing plate 15 and is blocked from light through the second polarizing plate 14b.
[0066]
In such a liquid crystal display element 30, when external light such as sunlight or indoor light enters from the viewing side where the first transmissive polarizing plate 14a is disposed, the external light is converted into the first transmissive polarizing plate. 14 a, the liquid crystal cell 13, the color polarizing plate 15, and the second transmissive polarizing plate 14 b are transmitted in this order and travel toward the transflective plate 31.
At this time, in the voltage application unit in the liquid crystal cell 13, the polarized light based on the external light transmitted through the transmissive polarizing plate 14 a passes through the voltage application unit of the liquid crystal cell 13 as it is and reaches the color polarizing plate 15. The polarized light reaching the color polarizing plate 15 is blocked by the color polarizing plate 15 from light other than the specific color. Then, the light of the specific color that has passed through the color polarizing plate 15 passes through the polarizing plate of the transmissive polarizing plate 14 b and is reflected by the transflective reflector 31. Therefore, the position corresponding to the voltage application unit is visually recognized by the specific color from the viewer side. Accordingly, for example, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 shown in FIGS. 1 and 15, is displayed by a specific color of the color polarizing plate 15.
[0067]
On the other hand, in the non-voltage application section of the liquid crystal cell 13, the polarized light based on the external light transmitted through the first transmission type polarizing plate 14 a is twisted 90 degrees by the liquid crystal cell 13 and reaches the color polarizing plate 15. The polarized light twisted 90 degrees passes through the color polarizing plate 15 and reaches the second transmission type plate 14b. Then, the reached polarized light is blocked by the second polarizing plate 14b, and black is visually recognized from the viewing side.
Therefore, for example, the LCD non-display portion 10b..., Which is the non-voltage application portion in the liquid crystal cell 13, and the LCD background portion 10c shown in FIGS. 1 and 15 are displayed in black.
[0068]
Next, in the liquid crystal display element 30 described above, a state when light light emitted from the backlight 17 disposed on the opposite side to the viewing side is transmitted to the viewing side will be described.
The backlight 17 emits light having the same color as the specific color of the color polarizing plate 15. When the backlight 17 emits light and light is emitted from the backlight 17, the light is transmitted through the transflective reflector 31, the second transmissive polarizing plate 14b, the color polarizing plate 15, the liquid crystal cell 13, and the first. Are transmitted in the order of the transmission type polarizing plate 14a, toward the viewing side.
At this time, in the voltage application unit in the liquid crystal cell 13, the light of the backlight 17 is only polarized by the second polarizing plate 14 b, reaches the color polarizing plate 15, and transmits only the specific color light transmitted through the color polarizing plate 15. Passes through the liquid crystal cell 13 as it is and reaches the first transmission type polarizing plate 14a. The reached specific color light is transmitted by the first transmission type polarizing plate 14a. Therefore, the specific color of the color polarizing plate 15 is visually recognized at the position corresponding to the voltage application unit. Accordingly, the LCD display section 10a, which is a voltage application section in the liquid crystal cell 13 shown in FIGS. 1 and 15, is displayed by a specific color of the color polarizing plate. In particular, the backlight 17 emits light of a color similar to the specific color of the color polarizing plate 15, so that polarized light based on the light light reaching the viewing side can have the specific color of the color polarizing plate 15 efficiently. .
[0069]
This is because the LCD display section 10a, which is a voltage application section in the liquid crystal cell 13 of the liquid crystal display element 30, is displayed in a specific color of the color polarizing plate also by the action of external light incident on the liquid crystal display element 30 described above. It is the same.
In other words, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 30, displays both the effect of incident external light and the effect of light from the backlight 17 by the specific color of the color polarizing plate. Therefore, the LCD display unit 10a can display the specific color of the color polarizing plate 15 more clearly.
[0070]
On the other hand, in the non-voltage application part in the liquid crystal cell 13, the light of the backlight 17 is polarized by the second transmission polarizing plate 14 b, reaches the color polarizing plate 15, and is transmitted through the color polarizing plate 15. Only the colored light is twisted by 90 degrees and transmitted by the liquid crystal cell 13, and reaches the first transmission type polarizing plate 14a. The reached specific color light is blocked by the transmissive polarizing plate 14. Therefore, black is visually recognized at a position corresponding to the non-voltage application portion.
Therefore, for example, the LCD non-display portion 10b..., Which is the non-voltage application portion in the liquid crystal cell 13, and the LCD background portion 10c shown in FIGS. 1 and 15 are displayed in black.
[0071]
This is because the LCD non-display part 10b, which is a non-voltage application part in the liquid crystal cell 13 of the liquid crystal display element 30, and the LCD background part 10c are also affected by the action of external light incident on the liquid crystal display element 30 described above. This is the same as displaying in black.
That is, the LCD non-display part 10b..., Which is a non-voltage application part in the liquid crystal cell 13 of the liquid crystal display element 30, and the LCD background part 10c are the action of the incident external light and the action of the light from the backlight 17. Both are displayed in black.
[0072]
In this way, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 30, is displayed with a specific color of the color polarizing plate 15, and the LCD non-display unit 10b, which is a non-voltage application unit, and the LCD background. The part 10c can be displayed in black.
[0073]
In the second embodiment, the color polarizing plate 15 is provided on the lower surface side of the liquid crystal cell 13, and the second transmission polarizing plate 14b is provided on the lower surface of the color polarizing plate 15. For example, the configuration shown in FIGS. 12 to 14 may be used.
[0074]
Specifically, for example, as in the first modified example shown in FIG. 12, the liquid crystal display element 30 is attached to the liquid crystal cell 13 and the upper surface on the viewing side of the liquid crystal cell 13. A polarizing plate 14a, a second transmissive polarizing plate 14b attached to the lower surface of the liquid crystal cell 13, and a color polarizing plate 15 attached to the lower surface of the second transmissive polarizing plate 14b. To.
In the liquid crystal display element 30, the first transmissive polarizing plate 14a and the first transmissive polarizing plate 14a are arranged in the same phase so that the transmission axis of the first transmissive polarizing plate 14a and the transmission axis of the second transmissive polarizing plate 14b are in the same phase. Two transmissive polarizing plates 14b are arranged in a “normally black” arrangement.
Further, for example, each transmission axis is 90 degrees so that the transmission axis of the second transmission type polarizing plate 14b is different from the transmission axis of the color polarizing plate 15 attached to the second transmission type polarizing plate 14b. The color polarizing plate 15 and the second transmissive polarizing plate 14b are arranged so as to form the angle of.
[0075]
Further, for example, as in the second modification shown in FIG. 13, the liquid crystal display element 30 includes the liquid crystal cell 13, the color polarizing plate 15 attached to the upper surface on the viewing side of the liquid crystal cell 13, and the The first transmissive polarizing plate 14 a attached to the upper surface of the color polarizing plate 15 and the second transmissive polarizing plate 14 b attached to the lower surface of the liquid crystal cell 13 are configured.
In the liquid crystal display element 10, the first transmission type polarizing plate 14a and the first transmission type polarizing plate 14a are arranged in the same phase so that the transmission axis of the first transmission type polarizing plate 14a and the transmission axis of the second transmission type polarizing plate 14b are in the same phase. Two transmissive polarizing plates 14b are arranged in a “normally black” arrangement.
Further, for example, each transmission axis forms an angle of 90 degrees so that the transmission axis of the color polarizing plate 15 and the transmission axis of the first transmission type polarizing plate 14a attached to the color polarizing plate 15 are different. As described above, the color polarizing plate 15 and the first transmission type polarizing plate 14a are arranged.
[0076]
Further, for example, as in the third modification shown in FIG. 14, the liquid crystal display element 10 is attached to the liquid crystal cell 13 and the upper surface on the viewing side of the liquid crystal cell 13. 14 a, a color polarizing plate 15 attached to the upper surface of the first transmission type polarizing plate 14 a, and a second transmission type polarizing plate 14 b attached to the lower surface of the liquid crystal cell 13.
In the liquid crystal display element 10, the first transmission type polarizing plate 14a and the first transmission type polarizing plate 14a are arranged in the same phase so that the transmission axis of the first transmission type polarizing plate 14a and the transmission axis of the second transmission type polarizing plate 14b are in the same phase. Two transmissive polarizing plates 14b are arranged in a “normally black” arrangement.
Further, for example, each transmission axis is 90 degrees so that the transmission axis of the first transmission type polarizing plate 14a is different from the transmission axis of the color polarizing plate 15 attached to the first transmission type polarizing plate 14a. The color polarizing plate 15 and the first transmission type polarizing plate 14a are arranged so as to make the angle of.
[0077]
Also in the liquid crystal display element 30 having the arrangement structure as in the first to third modifications, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 30, has incident external light. And the light of the light from the backlight 17 are displayed by a specific color of the color polarizing plate, and the LCD non-display part 10b, which is a non-voltage application part in the liquid crystal cell 13 of the liquid crystal display element 30, and the LCD background part. 10c indicates that the effect of the incident external light and the effect of the light from the backlight 17 are displayed in black.
Therefore, the LCD display portion 10A can display the specific color of the color polarizing plate 15 more clearly, and the LCD non-display portion 10b and the LCD background portion 10c displayed in black are more prominent from the periphery. Can be displayed in black.
In particular, as in the first modified example shown in FIG. 12, by sticking the color polarizing plate 15 to the lower surface of the second polarizing plate 14b, the portion displayed in black is displayed in black so that it stands out from the periphery. can do.
[0078]
Moreover, in the said 2nd Embodiment and its 1st-3rd modification, it was set as the structure provided with the backlight 17 which is a light source in the lower surface side of the liquid crystal display element 30, However, The backlight 17 is 1st. Similarly to the embodiment, for example, a combination of the EL element 18, the LED 19 and the light guide plate 20, a combination of the ultraviolet light emitting element 22 and the light guide plate 24 provided with the light emitter 23, and the like can be used.
In the second embodiment, light incident from the liquid crystal display element 30 side (viewing side) is reflected to the lower surface side of the liquid crystal display element 30 and light incident from the backlight 17 side is transmitted. However, a configuration including a mesh panel 32 instead of the transflective plate 31 may be used.
[0079]
The mesh panel 32 is, for example, a plate-like object in which fine holes are formed in a mesh shape on a metal panel. The mesh panel 32 has a function of reflecting light incident from the liquid crystal display element 30 side (viewing side) and transmitting light incident from the backlight 17 side through a fine hole in a mesh shape. .
By using the mesh panel 32, the color display in the voltage application unit can be a color exhibiting a vivid metallic luster, and a liquid crystal display with more taste can be performed.
[0080]
As described above, in the second embodiment and the first to third modifications thereof, the LCD display unit 10a, which is a voltage application unit, is displayed by a specific color of the color polarizing plate 15, as shown in FIG. Then, the LCD non-display portion 10b and the LCD background portion 10c, which are non-voltage application portions, can be displayed in black.
[0081]
In the liquid crystal display element 30 according to the second embodiment and the first to third modifications, the transmission axis of the first transmissive polarizing plate 14a and the transmission axis of the second transmissive polarizing plate 147b For example, if the first transmission type polarizing plate 14a and the second transmission type polarizing plate 14b are arranged so that the respective transmission axes form an angle of 90 degrees, the LCD serving as the voltage application unit “Normally white” type display in which the display unit 10a is displayed in black and the LCD non-display unit 10b and the LCD background unit 10c, which are non-voltage application units, are displayed in a specific color of the color polarizing plate 15 (see FIG. 9). Can be done.
[0082]
[Third Embodiment]
Next, with reference to FIG. 16, a third embodiment in which the liquid crystal display device according to the present invention is applied to a wristwatch as an electronic apparatus will be described. In addition, the same code | symbol is attached | subjected to the same part as 1st Embodiment, and only a different part is demonstrated.
[0083]
FIG. 16 is an enlarged cross-sectional view showing, for example, the liquid crystal display element 40, the transflective plate 31, and the backlight 17a provided in the upper housing 1a of the timepiece module 1 of the wristwatch 200.
As shown in FIG. 16, the liquid crystal display element 40 includes a liquid crystal cell 13, a transmissive polarizing plate 14 attached to the upper surface on the viewing side of the liquid crystal cell 13, and a first attached to the lower surface of the liquid crystal cell 13. The color polarizing plate 15a and the second color polarizing plate 15b attached to the lower surface of the first color polarizing plate 15a.
[0084]
Next, examples of display functions and display patterns in the liquid crystal display element 40 will be described.
In the liquid crystal display element 40, for example, the transmission axes of the first color polarizing plate 15a and the transmission axis of the second color polarizing plate 15b are different from each other so that each transmission axis forms an angle of 90 degrees. The first color polarizing plate 15a and the second color polarizing plate 15b are disposed.
Further, for example, an angle of 90 degrees is formed so that one of the transmission axis of the first color polarizing plate 15 a and the transmission axis of the second color polarizing plate 15 b is different from the transmission axis of the transmissive polarizing plate 14. The other is arranged in the same phase as the transmission axis of the transmissive polarizing plate 14.
For example, in the third embodiment, the first color polarizing plate 15a is arranged such that the transmission axis of the first color polarizing plate 15a forms an angle of 90 degrees with the transmission axis of the transmissive polarizing plate 14, and the second color polarizing plate 15b. Are arranged in the same phase as the transmission axis of the transmissive polarizing plate 14.
That is, for example, the light transmitted through the voltage application unit in the liquid crystal cell 13 is blocked by the first color polarizing plate 15a and the second color polarizing plate 15b is light transmissive. In addition, the light transmitted through the non-voltage application portion in the liquid crystal cell 13 is transmitted through the first color polarizing plate 15a, and the second color polarizing plate 15b is blocked.
[0085]
In such a liquid crystal display element 40, when external light such as sunlight or indoor light is incident from the viewing side where the transmissive polarizing plate 14 is disposed, the external light is transmitted to the transmissive polarizing plate 14, the liquid crystal cell 13, The light passes through the first color polarizing plate 15 a and the second color polarizing plate 15 b in this order and travels toward the transflective plate 31.
At this time, in the voltage application unit in the liquid crystal cell 13, the polarization based on the external light transmitted through the transmissive polarizing plate 14 is transmitted through the voltage application unit as it is, and the phase of the first color polarizing plate 15 a is blocked. The phase of the second color polarizer 15b is light transmissive. Therefore, in the first color polarizing plate 15a, light other than the specific color of the first color polarizing plate 15a is blocked, and the specific color of the first color polarizing plate 15a transmitted through the first color polarizing plate 15a. The light passes through the second color polarizing plate 15 b and reaches the transflective plate 31.
As described above, only the light of the specific color of the first color polarizing plate 15a out of the polarized light based on the external light reaches the transflective plate 31 and is reflected to the viewing side. Therefore, the position corresponding to the voltage application unit is visually recognized from the viewing side by the specific color of the first color polarizing plate 15a. Therefore, for example, the LCD display section 10a, which is a voltage application section in the liquid crystal cell, shown in FIG. 1 is displayed by a specific color of the first color polarizing plate 15a.
[0086]
On the other hand, in the non-voltage application unit in the liquid crystal cell 13, the polarized light based on the external light transmitted through the transmissive polarizing plate 14 is twisted by 90 degrees by the liquid crystal cell 13. The phase of the first color polarizing plate 15a is light transmission, and the phase of the second color polarizing plate 15b is light blocking. Therefore, all the polarized light is transmitted through the first color polarizing plate 15a, and the transmitted polarized light is blocked by the second color polarizing plate 15b from light other than the specific color of the second color polarizing plate 15b. The light of the specific color of the second color polarizing plate 15 b that has passed through the second color polarizing plate 15 b reaches the transflective plate 31.
Thus, only the light of the specific color of the second color polarizing plate 15b out of the polarized light based on the external light reaches the transflective plate 31 and is reflected to the viewing side. Therefore, the position corresponding to the non-voltage application portion is visually recognized from the viewing side by the specific color of the second color polarizing plate 15b. Therefore, for example, the LCD non-display portion 10b, which is a non-voltage application portion in the liquid crystal cell, and the LCD background portion 10c shown in FIG. 1 are displayed by a specific color of the second color polarizing plate 15b. .
[0087]
Next, the state when the light light emitted from the backlight 17a disposed on the opposite side of the viewing side in the liquid crystal display element 40 described above is transmitted to the viewing side will be described.
The backlight 17a can emit light of the same color as the specific color of the first color polarizing plate 15a and the light of the same color as the specific color of the second color polarizing plate 15b. When the backlight 17a emits light and light is emitted from the backlight 17a, the light is transmitted through the transflective plate 31, the second color polarizing plate 15b, the first color polarizing plate 15a, the liquid crystal cell 13, The light passes through the transmissive polarizing plate 14 in this order and travels toward the viewing side.
At this time, in the voltage application unit in the liquid crystal cell 13, the second color polarizing plate 15b that has passed through the second color polarizing plate 15b and the first color polarizing plate 15a out of the light of the backlight 17a. The polarized light of the specific color and the polarized light of the specific color of the first color polarizing plate 15 a are transmitted through the liquid crystal cell 13 as they are and reach the transmissive polarizing plate 14. Of the polarized light of the specific color of the second color polarizing plate 15b that has reached and the polarized light of the specific color of the first color polarizing plate 15a, the polarized light having the specific color of the first color polarizing plate 15a is transmitted. The phase of the plate 14 is light transmissive. On the other hand, the phase of the transmissive polarizing plate 14 is blocked by light with respect to the polarized light having the specific color of the second color polarizing plate 15b among the polarized light based on the light light reaching the transmissive polarizing plate 14. .
[0088]
Accordingly, at the position corresponding to the voltage application unit, only the specific color of the first color polarizing plate 15a reaches the viewer side in the light light from the backlight 17a, so the position is the first color polarization. It will be visually recognized by the specific color of the board 15a. Therefore, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13, is displayed by the specific color of the first color polarizing plate 15a.
[0089]
This is because the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 40, changes to the specific color of the first color polarizing plate 15a also by the action of external light incident on the liquid crystal display element 40 described above. It is the same as that displayed.
That is, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 40, has both the effect of the incident external light and the effect of the light light from the backlight 17a of the first color polarizing plate 15a. Displayed with a specific color.
[0090]
On the other hand, in the non-voltage application section in the liquid crystal cell 13, the second color polarizing plate that has passed through the second color polarizing plate 15b and the first color polarizing plate 15a in the light of the backlight 17a. The polarized light of the specific color 15b and the polarized light of the specific color of the first color polarizing plate 15a are twisted by 90 degrees by the liquid crystal cell 13 and transmitted to reach the transmissive polarizing plate 14. Of the reached polarized light of the specific color of the second color polarizing plate 15b and the polarized light of the specific color of the first color polarizing plate 15a, the polarized light having the specific color of the second color polarizing plate 15b is transmitted. The phase of the plate 14 is light transmissive. On the other hand, of the polarized light based on the light light that has reached the transmissive polarizing plate 14, the phase of the transmissive polarizing plate 14 is blocked by light with respect to the polarized light having the specific color of the first color polarizing plate 15a. .
[0091]
Therefore, at the position corresponding to the non-voltage application portion, only the specific color of the second color polarizing plate 15b reaches the viewing side in the light light from the backlight 17a. It will be visually recognized by the specific color of the polarizing plate 15b. Therefore, the LCD non-display portion 10b, which is a non-voltage application portion in the liquid crystal cell 13, and the LCD background portion 10c are displayed by the specific color of the second color polarizing plate 15b.
[0092]
This is because the LCD non-display part 10b, which is a non-voltage application part in the liquid crystal cell 13 of the liquid crystal display element 40, and the LCD background part 10c are also subjected to the second effect by the action of external light incident on the liquid crystal display element 40 described above. It is the same as that displayed on the specific color of the color polarizing plate 15b.
That is, the LCD non-display portion 10b... And the LCD background portion 10c, which are non-voltage application portions in the liquid crystal cell 13 of the liquid crystal display element 40, have both the effect of incident external light and the effect of light from the backlight 17a. The specific color of the second color polarizing plate 15b is displayed.
[0093]
In this way, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 40, is displayed by the specific color of the first color polarizing plate 15, and the LCD non-display unit 10b, which is a non-voltage application unit. And the LCD background portion 10c can be displayed by the specific color of the second color polarizing plate 15.
[0094]
In the third embodiment, the light incident from the liquid crystal display element 40 side (viewing side) is reflected on the lower surface side of the liquid crystal display element 40 and the light incident from the backlight 17a side is reflected. Although the configuration includes the transflective plate 31 having a transmitting function, the configuration may include a mesh panel 32 instead of the transflective plate 31.
In the third embodiment, the light of the same color as the specific color of the first color polarizing plate 15a and the light of the same color as the specific color of the second color polarizing plate 15b are emitted. It was set as the structure provided with the backlight 17a which can do. As a specific configuration of such a backlight 17a, an EL element that can emit light of the same color as the specific color of the first color polarizing plate 15a, and the specific color of the second color polarizing plate 15b For example, a two-layer EL element is integrally provided with an EL element that can emit light of similar colors.
[0095]
The two-layer EL element can switch emitted light, for example, by switching between light emission of a specific color of the first color polarizing plate 15a and light emission of a specific color of the second color polarizing plate 15b, The specific color light emission of the first color polarizing plate 15a and the specific color light emission of the second color polarizing plate 15b can be performed simultaneously.
[0096]
In the third embodiment, the configuration in which the first color polarizing plate 15a and the second color polarizing plate 15b are provided on the lower surface side of the liquid crystal cell 13 has been described. The configuration shown in FIGS. 17 and 18 may be used.
[0097]
Specifically, for example, as in the first modification shown in FIG. 17, the liquid crystal display element 40 is attached to the liquid crystal cell 13 and the upper surface on the viewing side of the liquid crystal cell 13. The polarizing plate 15a, the second color polarizing plate 15b attached to the upper surface of the first color polarizing plate 15a, and the transmission type polarizing plate 14 attached to the lower surface of the liquid crystal cell 13 are configured. .
In the liquid crystal display element 40, for example, the transmission axes of the first color polarizing plate 15a and the transmission axis of the second color polarizing plate 15b are different from each other so that each transmission axis forms an angle of 90 degrees. The first color polarizing plate 15a and the second color polarizing plate 15b are disposed. Further, the transmission axis of the first color polarizing plate 15a is arranged at an angle of 90 degrees, for example, so that the transmission axis of the first color polarizing plate 15a is different from the transmission axis of the transmission type polarizing plate 14, and the transmission axis of the second color polarizing plate 15b is The transmission polarizing plate 14 is arranged in the same phase as the transmission axis.
[0098]
Further, for example, as in the second modification shown in FIG. 18, the liquid crystal display element 40 is attached to the liquid crystal cell 13 and the first color polarizing plate 15 a attached to the upper surface on the viewing side of the liquid crystal cell 13. And the second color polarizing plate 15b attached to the upper surface of the first color polarizing plate 15a and the polarizing plate 16 with a transflective plate attached to the lower surface of the liquid crystal cell 13.
In the liquid crystal display element 40, for example, the transmission axes of the first color polarizing plate 15a and the transmission axis of the second color polarizing plate 15b are different from each other so that each transmission axis forms an angle of 90 degrees. The first color polarizing plate 15a and the second color polarizing plate 15b are disposed. Further, the first color polarizing plate 15a is arranged so as to form an angle of 90 degrees, for example, so that the transmission axis of the first color polarizing plate 15a is different from the transmission axis of the polarizing plate 16 with a transflective plate, and the transmission of the second color polarizing plate 15b. The axis is arranged in the same phase as the transmission axis of the polarizing plate 16 with a transflective plate.
[0099]
In the third embodiment and the first and second modifications thereof, for example, the backlight 17a, which is a light source, is provided on the lower surface side of the liquid crystal display element 40. For example, the configuration shown in FIGS. 19 to 22 may be used.
[0100]
Specifically, for example, as in the third modification shown in FIG. 19, a two-color light emitting LED 19 a and a light guide plate 20 are provided as light sources on the lower surface side of the liquid crystal display element 40, and the lower surface of the light guide plate 20. The structure provided with the reflecting plate 21 on the side may be sufficient. The two-color light emitting LED 19a emits light of two colors, light having the same color as the specific color of the first color polarizing plate 15a and light having the same color as the specific color of the second color polarizing plate 15b. Can do. The two-color light emitting LED 19a can switch emitted light. For example, the two-color light emitting LED 19a can switch between light emission of a specific color of the first color polarizing plate 15a and light emission of a specific color of the second color polarizing plate 15b. The specific color light emission of the first color polarizing plate 15a and the specific color light emission of the second color polarizing plate 15b can be performed simultaneously.
[0101]
Further, for example, as in the fourth modification shown in FIG. 20, light having the same color as the specific color of the first color polarizing plate 15a as the light source is emitted on the lower surface side of the liquid crystal display element 40. The first LED 19b, the second LED 19c that emits light of the same color as the specific color of the second color polarizing plate 15b, and the light guide plate 20, and the reflector 21 on the lower surface side of the light guide plate 20 It may be.
[0102]
Further, for example, as in the fifth modification shown in FIG. 21, the first ultraviolet light emitting element 22 a and the second ultraviolet light emitting element 22 b as the light source are provided on the lower surface side of the liquid crystal display element 40, and A first light emitter 23a that emits light of the same color as the specific color of the first color polarizer 15a and a second light emitter 23b that emits light of the same color as the specific color of the second color polarizer 15b are provided. The light guide plate 24 may be provided. The first light emitter 23a emits light by the action of the ultraviolet light output from the first ultraviolet light emitting element 22a and irradiated through the light guide plate 24 and the like, and the second light emitter 23b emits the second ultraviolet light. The light emitting element 22b outputs and emits light by the action of ultraviolet rays irradiated through the light guide plate 24 and the like.
[0103]
Further, for example, as in the sixth modification shown in FIG. 22, light having the same color as the specific color of the first color polarizing plate 15 a as a light source is emitted on the lower surface side of the liquid crystal display element 40. The LED 19 and the light guide plate 24 provided with the light emitter 23 that emits light of the same color as the specific color of the second color polarizing plate 15b by the action of ultraviolet rays of the ultraviolet light emitting element 22 may be provided.
[0104]
In addition, the liquid crystal display element 40 in the third to sixth modifications shown in FIGS. 19 to 22 includes the transmissive polarizing plate 14 and the liquid crystal cell of the liquid crystal display element 40 in the third embodiment shown in FIG. 13, the arrangement structure of the first color polarizing plate 15a and the second color polarizing plate 15b has been described as an example. However, the present invention is not limited to this, and the first and second modification examples shown in FIGS. The liquid crystal display element 40 etc. of a structure may be sufficient.
[0105]
Thus, in the third embodiment and the first to sixth modifications thereof, the LCD display unit 10a, which is a voltage application unit in the liquid crystal cell 13 of the liquid crystal display element 40, is replaced with the first color polarizing plate 15a. The specific color is displayed, and the LCD non-display portion 10b and the LCD background portion 10c, which are non-voltage application portions, can be displayed with the specific color of the second color polarizing plate 15b.
[0106]
In the liquid crystal display element 40 according to the third embodiment and the first to sixth modifications thereof, the third embodiment shown in FIG. 16 and the third embodiment shown in FIGS. In the case of the third to sixth modifications of the embodiment, the transmission axis of the first color polarizing plate 15 a attached to the lower surface of the liquid crystal cell 13 and the transmission of the transmission type polarizing plate 14 attached to the upper surface of the liquid crystal cell 13. The LCD display unit, which is a voltage application unit, is arranged so that the axis is in the same phase and the transmission axis of the second color polarizing plate 15b is different from the transmission axis of the transmission type polarizing plate 14. 10a can be displayed with the specific color of the second color polarizing plate 15b, and the LCD non-display portion 10b and the LCD background portion 10c, which are non-voltage application portions, can be displayed with the specific color of the first color polarizing plate 15a. .
In the case of the first modification of the third embodiment shown in FIG. 17, the transmission axis of the first color polarizing plate 15 a attached to the upper surface of the liquid crystal cell 13 and the lower surface of the liquid crystal cell 13 are attached. If the transmission axis of the transmission type polarizing plate 14 is arranged so as to have the same phase, the transmission axis of the second color polarizing plate 15b and the transmission axis of the transmission type polarizing plate 14 are different. The LCD display unit 10a, which is a voltage application unit, displays the specific color of the second color polarizing plate 15b, and the LCD non-display unit 10b, which is a non-voltage application unit, and the LCD background unit 10c are displayed in the first color polarizing plate 15a. Can be displayed in a specific color.
In the case of the second modification of the third embodiment shown in FIG. 18, the transmission axis of the first color polarizing plate 15 a attached to the upper surface of the liquid crystal cell 13 and the lower surface of the liquid crystal cell 13 are attached. The transmission axis of the transflective polarizing plate with a reflecting plate 16 is arranged so as to have the same phase, and the transmission axis of the second color polarizing plate 15b is different from the transmission axis of the polarizing plate 16 with a transflective plate. With this arrangement, the LCD display unit 10a as the voltage application unit is displayed by the specific color of the second color polarizing plate 15b, and the LCD non-display unit 10b and the LCD background unit 10c as the non-voltage application unit are displayed in the first. The specific color of the color polarizing plate 15a can be displayed.
[0107]
As described above, in the liquid crystal display elements 10, 30, and 40 provided in the timepiece module 1 that is the liquid crystal display device of the present invention, the coloring expression based on the specific color of the color polarizing plate using external light and the color by the backlight. The coloring expression based on the specific color of the polarizing plate can be made substantially the same, and the coloring expression more rich in taste can be realized.
[0108]
In the embodiment described above, various polarizing plates and the liquid crystal cell 13 are attached. However, the present invention is not limited to this, and the various polarizing plates are displaced or moved. As long as they are arranged in a predetermined arrangement order.
Further, in the liquid crystal display elements 10, 30, 40, display (LCD display unit 10a) / non-display (LCD non-display unit 10b) is switched by the voltage application unit / voltage non-application unit, and what is displayed is a digital type. The display is not limited to the analog display, and may be an analog display that pseudo-displays the hands such as the hour hand, the minute hand, and the second hand.
Further, the electronic device is not limited to a wristwatch, and may be various devices such as a mobile phone and automobile meters.
In addition, it is needless to say that other specific detailed structures can be appropriately changed.
[0109]
【The invention's effect】
  Claim1According to the described invention, the emitted light of the backlight isWhen reaching the viewing side through the second color polarizing plate, the first color polarizing plate, the liquid crystal cell, and the polarizing plate, the second color polarizing plate, the first color polarizing plate, the liquid crystal cell, and the polarizing plate Through the interaction, colored light based on the colors of the first color polarizing plate and the second color polarizing plate among the light emitted from the backlight arrives. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  In addition, since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight reaches the viewer side with high efficiency. Can do. Therefore, vivid coloring expression can be performed with colored light having a larger amount of light.
  Further, since the backlight emits light by switching between the color of the first color polarizing plate and the color of the second color polarizing plate, the color of the first color polarizing plate, the color of the second color polarizing plate, The color display can be switched.
[0110]
  According to invention of Claim 2, when the emitted light of a backlight reaches | attains a visual recognition side via a 2nd color polarizing plate, a 1st color polarizing plate, a liquid crystal cell, and a polarizing plate, it is 2nd. Due to the interaction of the color polarizing plate, the first color polarizing plate, the liquid crystal cell, and the polarizing plate, colored light based on the color of the first color polarizing plate or the second color polarizing plate is emitted from the light emitted from the backlight. Will be reached. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  In addition, since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight reaches the viewer side with high efficiency. Can do. Therefore, vivid coloring expression can be performed with colored light having a larger amount of light.
  Further, by switching between the voltage application unit and the non-voltage application unit in the liquid crystal cell, the voltage application unit can perform liquid crystal display so as to perform colored display based on the color of the second color polarizing plate. At the same time, in the non-voltage application unit, liquid crystal display can be performed so that colored display based on the color of the first color polarizing plate is performed.
  Therefore, for example, characters, figures, etc. of colors based on the color of the second color polarizing plate can be displayed on the colored background based on the color of the first color polarizing plate. It can be carried out.
[0111]
  According to invention of Claim 3, when the emitted light of a backlight reaches | attains a visual recognition side via a 2nd color polarizing plate, a 1st color polarizing plate, a liquid crystal cell, and a polarizing plate, it is 2nd. Due to the interaction of the color polarizing plate, the first color polarizing plate, the liquid crystal cell, and the polarizing plate, colored light based on the color of the first color polarizing plate or the second color polarizing plate is emitted from the light emitted from the backlight. Will be reached. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  In addition, since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight reaches the viewer side with high efficiency. Can do. Therefore, not only can the vivid coloring expression be performed with more colored light, but also by switching between the voltage application unit and the non-voltage application unit in the liquid crystal cell, Liquid crystal display can be performed so as to perform colored display based on the color of the color polarizing plate, and liquid crystal display can be performed so as to perform colored display based on the color of the second color polarizing plate in the non-voltage application unit. be able to.
  Therefore, for example, characters, figures, etc. of colors based on the color of the first color polarizing plate can be displayed on the colored background based on the color of the second color polarizing plate. It can be carried out.
[0112]
  According to invention of Claim 5, when the emitted light of a backlight reaches | attains a visual recognition side via a polarizing plate, a liquid crystal cell, a 1st color polarizing plate, and a 2nd color polarizing plate, a polarizing plate, Due to the interaction of the liquid crystal cell, the first color polarizing plate, and the second color polarizing plate, the colored light based on the color of the first color polarizing plate or the second color polarizing plate is emitted from the backlight. Will be reached. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  Since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight can reach the viewer side with high efficiency. . Therefore, not only can the brightly colored expression be performed with more colored light, but also the backlight emits light by switching between the color of the first color polarizing plate and the color of the second color polarizing plate. Therefore, the color display can be switched between the color of the first color polarizing plate and the color of the second color polarizing plate.
[0113]
  According to invention of Claim 6, when the emitted light of a backlight reaches | attains a visual recognition side via a polarizing plate, a liquid crystal cell, a 1st color polarizing plate, and a 2nd color polarizing plate, a polarizing plate, Due to the interaction of the liquid crystal cell, the first color polarizing plate, and the second color polarizing plate, the colored light based on the color of the first color polarizing plate or the second color polarizing plate is emitted from the backlight. Will be reached. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  Since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight can reach the viewer side with high efficiency. . Therefore, not only can the vivid coloring expression be performed by the colored light having a larger amount of light, but also by switching between the voltage application unit and the non-voltage application unit in the liquid crystal cell, Liquid crystal display can be performed so that colored display based on the color of the color polarizing plate is performed, and liquid crystal display is performed so that colored display based on the color of the first color polarizing plate is performed in the non-voltage application unit. be able to.
Therefore, for example, characters, figures, etc. of colors based on the color of the second color polarizing plate can be displayed on the colored background based on the color of the first color polarizing plate. It can be carried out.
[0114]
  According to invention of Claim 7, when the emitted light of a backlight reaches | attains a visual recognition side through a polarizing plate, a liquid crystal cell, a 1st color polarizing plate, and a 2nd color polarizing plate, a polarizing plate, Due to the interaction of the liquid crystal cell, the first color polarizing plate, and the second color polarizing plate, the colored light based on the color of the first color polarizing plate or the second color polarizing plate is emitted from the backlight. Will be reached. Therefore, a liquid crystal display capable of color expression can be performed with colored light based on the colors of the first color polarizing plate and the second color polarizing plate.
  Since the backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, the light emitted from the backlight can reach the viewer side with high efficiency. . Therefore, not only can the vivid coloring expression be performed with more colored light, but also by switching between the voltage application unit and the non-voltage application unit in the liquid crystal cell, Liquid crystal display can be performed so as to perform colored display based on the color of the color polarizing plate, and liquid crystal display can be performed so as to perform colored display based on the color of the second color polarizing plate in the non-voltage application unit. be able to.
Therefore, for example, characters, figures, etc. of colors based on the color of the first color polarizing plate can be displayed on the colored background based on the color of the second color polarizing plate. It can be carried out.
[0118]
  Claim8According to the described invention, the claimsIn any one of 5-7Of course, it is possible to obtain the same effect as that of the invention described above, and in particular, since the polarizing plate is a polarizing plate with a transflective plate, this liquid crystal display device includes a transmissive liquid crystal display using a backlight, sunlight Thus, a transflective liquid crystal display device capable of a reflective liquid crystal display using external light such as the above can be obtained.
  Therefore, the coloring expression based on the color of the color polarizing plate by the backlight can be performed, and the coloring expression based on the color of the color polarizing plate can be performed using the external light. Liquid crystal display by expression can be performed.
[0124]
  Claim9According to the described invention, by arranging a liquid crystal display device having a liquid crystal cell, a backlight, etc. provided with various polarizing plates in an equipment case, vivid coloring expression and preference in various electronic devices It is possible to provide a liquid crystal display function capable of providing a rich coloring expression.
[Brief description of the drawings]
FIG. 1 is a partially omitted plan view showing a wristwatch to which the present invention is applied.
2 is an enlarged cross-sectional view of the main part of the wrist watch taken along line II-II in FIG.
FIG. 3 is an enlarged cross-sectional view showing a configuration of a liquid crystal display element and a backlight according to the first embodiment of the present invention.
FIG. 4 is an enlarged cross-sectional view of a first modification showing the configuration of the liquid crystal display element and the backlight according to the first embodiment of the present invention.
FIG. 5 is an enlarged cross-sectional view of a second modification showing the configuration of the liquid crystal display element and the backlight in the first embodiment of the present invention.
FIG. 6 is an enlarged cross-sectional view showing a configuration when an EL element is used as a backlight in the first embodiment of the present invention.
FIG. 7 is an enlarged cross-sectional view showing a configuration when an LED is used as a backlight in the first embodiment of the present invention.
FIG. 8 is an enlarged cross-sectional view showing a configuration when an ultraviolet light emitting element is used as a backlight in the first embodiment of the present invention.
FIG. 9 is an explanatory diagram showing a display example in the “normally white” arrangement according to the first embodiment of the present invention.
10 is an enlarged cross-sectional view of the main part of the wrist watch taken along line II-II in FIG.
FIG. 11 is an enlarged cross-sectional view illustrating a configuration of a liquid crystal display element and a backlight according to a second embodiment of the present invention.
FIG. 12 is an enlarged cross-sectional view of a first modification showing the configuration of the liquid crystal display element and the backlight in the second embodiment of the present invention.
FIG. 13 is an enlarged cross-sectional view of a second modification showing the configuration of the liquid crystal display element and the backlight in the second embodiment of the present invention.
FIG. 14 is an enlarged cross-sectional view of a third modification showing the configuration of the liquid crystal display element and the backlight in the second embodiment of the present invention.
FIG. 15 is an explanatory diagram showing a display example in the “normally black” arrangement according to the second embodiment of the present invention.
FIG. 16 is an enlarged cross-sectional view illustrating a configuration of a liquid crystal display element and a backlight according to a third embodiment of the present invention.
FIG. 17 is an enlarged cross-sectional view of a first modification showing the configuration of the liquid crystal display element and the backlight in the third embodiment of the present invention.
FIG. 18 is an enlarged cross-sectional view of a second modification showing the configuration of the liquid crystal display element and the backlight in the third embodiment of the present invention.
FIG. 19 is an enlarged cross-sectional view of a third modification showing the configuration of the liquid crystal display element and the backlight according to the third embodiment of the present invention.
FIG. 20 is an enlarged cross-sectional view of a fourth modification showing the configuration of the liquid crystal display element and the backlight in the third embodiment of the present invention.
FIG. 21 is an enlarged cross-sectional view of a fifth modification showing the configuration of the liquid crystal display element and the backlight in the third embodiment of the present invention.
FIG. 22 is an enlarged cross-sectional view of a sixth modification showing the configuration of the liquid crystal display element and the backlight according to the third embodiment of the present invention.
[Explanation of symbols]
1 Clock module (liquid crystal display)
1a Upper housing
1b Lower housing
2 Watch case (equipment case)
3 Watch glass
4 Packing
5 Back cover
6 Waterproof ring
7 Bezel
8 Circuit board
10 Liquid crystal display elements
10a LCD display section (voltage application section)
10b LCD non-display part (voltage non-application part)
10c LCD background part (voltage non-application part)
11 LCD drive
12 batteries
13 Liquid crystal cell
13a Upper plate glass
13b Lower plate glass
14 Transmission type polarizing plate
14a First transmissive polarizing plate
14b Second transmissive polarizing plate
15 Color polarizing plate
15a First color polarizing plate
15b Second color polarizing plate
16 Polarizing plate with transflective plate
17 Backlight
17a Backlight
18 EL element
19 LED
19a 2-color LED
19b 1st LED
19c Second LED
20 Light guide plate
21 Reflector
22 UV light emitting device
22a First ultraviolet light emitting element
22b Second ultraviolet light emitting element
23 Luminescent body
23a First light emitter
23b Second light emitter
24 Light guide plate
30 Liquid crystal display elements
31 transflective plate
32 mesh panel
40 Liquid crystal display elements
100, 200 Watch (electronic equipment)
2A Band shaft
B Watch band

Claims (9)

A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A polarizing plate disposed on the viewing side of the liquid crystal cell;
A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, while the color of the first color polarizing plate and the second color polarizing plate are the same. A liquid crystal display device which emits light by switching the color of the color polarizing plate . A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A polarizing plate disposed on the viewing side of the liquid crystal cell;
A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
The voltage application unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light transmission, the phase of the second color polarizing plate is light blocking, and the non-voltage application unit in the liquid crystal cell is the first color polarizer phase is a light blocking, the second color polarizer of phase light transmitting the liquid crystal display device you characterized in that it is. A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A polarizing plate disposed on the viewing side of the liquid crystal cell;
A first color polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the opposite side of the first color polarizing plate and has a polarizing ability of a wavelength different from that of the first color polarizing plate;
A backlight disposed on the opposite side to the viewing side of the second color polarizing plate,
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
The voltage applying unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light blocking, the phase of the second color polarizing plate is light transmitting, and the non-voltage applying unit in the liquid crystal cell is the first color polarizer phase is a light transmitting, said second color polarizer of phase liquid crystal display device you characterized in that it is a light blocking. Wherein the second color polarizer, a liquid crystal display device according to any one of claims 1 to 3, the semi-transmissive reflective plate or mesh panel is characterized in that it is disposed between the backlight. A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A backlight disposed on the side opposite to the viewing side of the polarizing plate;
With
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color similar to one of the first color polarizing plate and the second color polarizing plate, while the color of the first color polarizing plate and the second color polarizing plate are the same. liquid crystal display device by switching of the color polarizing plate and a color you characterized by the emission. A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A backlight disposed on the side opposite to the viewing side of the polarizing plate;
With
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
The voltage application unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light transmission, the phase of the second color polarizing plate is light blocking, and the non-voltage application unit in the liquid crystal cell is the first color polarizer phase is a light blocking, the second color polarizer of phase light transmitting the liquid crystal display device you characterized in that it is. A liquid crystal cell having a liquid crystal sandwiched between a pair of substrates;
A first color polarizing plate disposed on the viewing side of the liquid crystal cell;
A second color polarizing plate that is bonded to the viewing side of the first color polarizing plate and has a polarization ability of a wavelength different from that of the first color polarizing plate;
A polarizing plate disposed on the side opposite to the viewing side of the liquid crystal cell;
A backlight disposed on the side opposite to the viewing side of the polarizing plate;
With
The transmission axis of the first color polarizing plate is different from the transmission axis of the second color polarizing plate,
The backlight emits a color of the same color as one of the first color polarizing plate and the second color polarizing plate,
The voltage applying unit in the liquid crystal cell is configured such that the phase of the first color polarizing plate is light blocking, the phase of the second color polarizing plate is light transmitting, and the non-voltage applying unit in the liquid crystal cell is A liquid crystal display device , wherein the phase of the first color polarizing plate is light transmissive and the phase of the second color polarizing plate is light blocking . The liquid crystal display device according to claim 5, wherein the polarizing plate is a polarizing plate with a transflective plate . An electronic apparatus comprising the liquid crystal display device according to any one of claims 1 to 3 and claim 5 to claim 7 arranged in an apparatus case.

Images