JPS6355528A - Liquid crystal display cell - Google Patents

Abstract

PURPOSE:To switch positive/negative display in accordance with ambient circumstances or their change by providing an inscribing layer consisting of a TN type liquid crystal display cell and an inverting layer consisting of an optical rotation type liquid crystal cell having transparent electrodes between polarizing plates. CONSTITUTION:An inscribing layer 2 and an inverting layer 3 are arranged between polarizing plates 1 and 4, and the polarizing plate 1 is stuck to the inscribing layer 2, and the polarizing plate 4 is stuck to the inverting layer 3. The inscribing layer 2 is constituted with a TN type liquid crystal display cell consisting of a TN type liquid crystal layer 23 where the rotation angle of the plane of polarization is 90 deg., transparent substrates 21 and 21 where the liquid crystal is enclosed with a seal material 24 between them, and transparent electrodes 22 and 22 provided on the liquid crystal enclosing sides of transparent substrates 21 and 21. The inverting layer 3 is constituted with an optical rotation type liquid crystal cell consisting of transparent substrates 21 and 34 where the liquid crystal is enclosed with a seal material 33 between them, and transparent electrodes 31 and 31 provided throughout the liquid crystal enclosing sides of transparent substrates 21 and 34. Thus, the liquid crystal display cell where positive/negative display can be switched is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention has two layers: a display layer consisting of a 11TN type liquid crystal display cell and an inversion layer consisting of an optical rotation type liquid crystal cell, and is capable of switching between positive and negative display. This invention relates to a new liquid crystal display cell.

Conventional techniques and problems Conventionally, polarizing plates are fixed to the upper and lower surfaces of a liquid crystal cell in which a twisted nematic liquid crystal layer is provided between transparent substrates having patterned transparent electrodes in segment display systems, matrix display systems, etc. A TN type liquid crystal display element was known. In a TN type liquid crystal display element, a positive display type or a negative display type can be obtained by arranging the polarizing plates on the upper and lower surfaces of the cell so that their polarization axes are parallel or crossed (generally orthogonal). .

By the way, visibility may be reversed due to changes in the surrounding environment, for example, changes in surrounding brightness between daytime and nighttime, and it may be desirable to switch between positive and negative display. In particular, a transmissive/reflective display type equipped with a transflective reflector is susceptible to changes in ambient brightness, so it is strongly desired to switch between positive and negative display.

However, in conventional TN type liquid crystal display elements, it is possible to set the display to either positive or negative display by selecting the relationship between the polarization axes before the polarizing plate is fixed to the liquid crystal cell. There was a problem that it could not be changed after it was done. Therefore, it is not possible to switch between positive and negative display according to changes in the surrounding environment, and even if the visibility is reversed, there is no choice but to accept the preset display type.

Means for Solving the Problems The present invention overcomes the above problems by adding an inversion layer consisting of an optically active liquid crystal cell to a TN type liquid crystal display cell.
This is a liquid crystal display cell that can switch between positive and negative display.

That is, the present invention provides a display layer consisting of a TN type liquid crystal display cell with patterned transparent electrodes between polarizing plates whose polarization axes are parallel or crossed, and an inversion layer consisting of an optically rotating type liquid crystal cell having transparent electrodes. The present invention provides a liquid crystal display cell which is capable of switching between positive and negative display, and which is provided with a layer.

By adopting a structure in which an inversion layer consisting of a display layer consisting of a TN type liquid crystal display cell and an optical rotation type liquid crystal cell having a transparent electrode is provided between the working polarizing plates, it is possible to determine whether or not a voltage is applied to the transparent electrode in the inversion layer. It is possible to switch between positive and negative display using control.

The drawings show an example in which a reflective plate is attached to form a reflective display type. 1.4 is a polarizing plate whose polarization axes are parallel,
2 is a writing layer, 3 is an inversion layer, and 5 is a reflection plate.

The marking layer 2 and the inversion layer 3 are arranged between the polarizing plates 1 and 4, with the polarizing plate 1 being fixed to the marking layer 2 and the polarizing plate 4 being fixed to the inversion layer 3. Note that either the writing layer 2 or the inversion layer 3 may be on the light incident side.

The writing layer 2 is a TN type liquid crystal layer 2 in which the rotation angle of the polarization plane is 90 degrees.
3, a transparent substrate 21.21 in which the liquid crystal is sealed via a sealing material 24, and a transparent electrode 22.22 provided on the liquid crystal sealed side of the transparent substrate 21121. .

Note that the transparent electrodes 22.22 are patterned in a predetermined state.

In the present invention, the display layer consisting of a TN type liquid crystal display cell is
This is for forming display characters, display symbols, etc., and may be configured in the same manner as in the past. Therefore, although not limited to this, in general, the transparent electrode is made of a vapor-deposited film or sputtered film of tin oxide, indium oxide, etc., and the transparent substrate is made of a glass plate, a plastic film, or the like.

The inversion layer 3 is a TN type liquid crystal layer 3 in which the rotation angle of the polarization plane is 90 degrees.
2, a transparent substrate 21.34 in which the liquid crystal is sealed via a sealing material 33, and a transparent electrode 31.31 provided on almost the entire surface of the transparent substrate 21.34 on the liquid crystal sealed side. It is configured. Note that the transparent electrode 31.
31 is subjected to a treatment for aligning the liquid crystal.

In the present invention, the inversion layer consisting of an optically rotating liquid crystal cell is a positive
This is for switching the negative display. Switching between positive and negative display is performed by controlling whether or not to apply a voltage to the transparent electrode in the optically rotating liquid crystal cell. In the embodiment, a negative display is obtained when no voltage is applied to the transparent electrodes 31, 31, and a positive display is obtained when a voltage is applied.

In addition, when the polarization axes of the polarizing plates 1 and 4 in the embodiment are set to be orthogonal, the positive-negative display is reversed, and a positive display is obtained when no voltage is applied, and a negative display is obtained when a voltage is applied. is obtained.

The optical rotation type liquid crystal cell constituting the inversion layer is a cell that exhibits optical rotation when a voltage is applied to its transparent electrode or when no voltage is applied, or a cell that exhibits optical rotation when the plane of polarization of light incident on this layer is rotated. A cell is used that can obtain the same result of transmitted light. Generally, a TN type liquid crystal cell, an electric field controlled birefringence (ECB) type liquid crystal cell such as a homeotropic alignment (DAP) type, a homogeneous alignment type, a hybrid alignment type (HAN) type, etc. are used. The former TN type liquid crystal cell can rotate the plane of polarization even when no voltage is applied, while the latter ECB type liquid crystal cell exhibits birefringence when a voltage is applied, which causes the formation of circularly polarized light, etc. As a result, transmitted light with a rotated plane of polarization is obtained. Therefore, in some cases, an ECB type liquid crystal cell can realize a colored display based on its circularly polarized light.

In the present invention, the rotation angle of the polarization plane by the inversion layer is appropriately determined based on the relative relationship between the polarization axis of the polarizing plate or the state of the polarization axis between the polarization plates and the rotation angle of the polarization plane in the writing layer. In general, this corresponds to the fact that the polarization axes between the polarizing plates are usually set to be parallel or orthogonal, and that the rotation angle of the polarization plane in the TN type liquid crystal display cell constituting the display layer is usually 90 degrees. From the viewpoint of contrast, the rotation angle of the plane of polarization by the inversion layer is set to 90 degrees.

The materials for forming the transparent substrate and transparent electrode in the optically rotating liquid crystal cell constituting the inversion layer may be the same as or different from those in the TN liquid crystal display cell constituting the above-mentioned writing layer. However, it is necessary to provide the transparent electrode in correspondence with the switching area between positive and negative display. The transparent electrode is usually subjected to a treatment to orient the liquid crystal. The alignment treatment includes rubbing treatment, -silicon oxide,
Physical treatments such as diagonal vapor deposition of gold, diagonal etching with ion beams, etc., coating of alkylphenols, bromides of hexadecyltrimethylammonium, surfactants, lecithin, polyamide resins, hexamethyldisiloxane, polytetrafluoroethylene, etc. Examples include chemical treatments such as treatment.

Furthermore, an optically active substance may be mixed into the optically active liquid crystal cell to stabilize the display.

The relationship of the polarization axes between the polarizing plates arranged with the notation layer and the inversion layer interposed is generally parallel or orthogonal as described above, but the rotation angle of the plane of polarization of light in the notation layer or the inversion layer is generally parallel or perpendicular. It may be in an oblique state due to the relationship with.

Typical polarizing plates used include polarizers made by adsorbing and aligning iodine and/or dichroic dyes onto hydrophilic polymer films such as polyvinyl alcohol films and saponified ethylene-vinyl acetate copolymer films. Polyene oriented films such as dyed polarizers, polarizers made of dehydrated polyvinyl alcohol and dehydrochloric acid treated polyvinyl chloride, etc. It is generally protected with a plastic film, such as a plastic film.

In the embodiment, a reflective plate 5 is fixed to the lower surface of the polarizing plate 4 to form a reflective display type liquid crystal display cell, but in the present invention, a transflective type reflective plate is used in place of the reflective plate 5. It may be a transmissive/reflective display type liquid crystal display cell, or a transmissive display type liquid crystal display cell without a reflective plate or a semi-transmissive reflector plate. As a reflector or a semi-transparent reflector, a coating layer made of resin or the like mixed with an appropriate amount of fine metal powder, a metal vapor deposited film, etc. are generally used.

In addition, in the figure, the lower transparent substrate 21 is connected to the marking layer 2 and the inversion layer 3.
Although a common type is shown as an example, in the present invention, a structure using separate transparent substrates may also be used.

Effects of the Invention According to the liquid crystal display cell of the present invention, since an inversion layer is added,
It is possible to switch between positive and negative display by applying or not applying a voltage to the transparent electrode in the inversion layer.

As a result, a positive display or a negative display can be arbitrarily selected depending on the surrounding environment or its changes, and a display with excellent visibility can be obtained.

Therefore, even when a transmissive/reflective display type is created by adding a transflective reflector, it is possible to switch between positive and negative display and select a display format suitable for transmissive display or reflective display as appropriate. .

[Brief explanation of drawings]

The figure is a sectional view showing an example of a reflective display type liquid crystal display cell. 1.4: Polarizing plate 2: Indication layer (TN type liquid crystal display cell) 3: Inversion layer (optical rotation type liquid crystal cell) 21.34: Transparent substrate 22.31: Transparent electrode 23.32nTN type liquid crystal layer 5: Reflector plate patent Applicant Nitto Electric Industry Co., Ltd. Agent Tsutomu Fujimoto 1.4:
(J! Sakigaku 52 and Konkyu

Claims (1)

[Claims] 1. Between polarizing plates whose polarization axes are parallel or crossed,
A liquid crystal display cell capable of switching between positive and negative display, comprising a marking layer made of a TN type liquid crystal display cell with a patterned transparent electrode, and an inversion layer made of an optically rotating type liquid crystal cell having a transparent electrode. 2. The polarization axes of the polarizing plates are parallel or orthogonal, and the optical rotation type liquid crystal cell constituting the inversion layer is a TN type liquid crystal cell having the ability to rotate the polarization plane by 90 degrees. LCD display cell. 3. The liquid crystal display cell according to claim 1, which is of a reflective display type by adding a reflector. 4. The liquid crystal display cell according to claim 1, which is equipped with a transflective reflector to provide a transmissive and reflective display type.