Liquid crystal cells – elements and systems – Liquid crystal system – Projector including liquid crystal cell
Reexamination Certificate
2000-03-03
2003-04-15
Ngo, Julie (Department: 2871)
Liquid crystal cells, elements and systems
Liquid crystal system
Projector including liquid crystal cell
C349S005000, C349S008000
Reexamination Certificate
active
06549248
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an optical system, and more particularly to an optical system which is suitable for a miniaturized projection type display apparatus which efficiently makes use of the space of a casing in which a light source, a liquid crystal display element, an image formation optical system and a projection optical system are mounted.
Liquid crystal display elements arc popularly used as monitors for information equipment such as television receiver display devices or personal computers or display devices for other various display equipment. Among these equipment, equipment which use the liquid crystal display elements as the image forming means of the projection type display apparatus (projectors) has been recently utilized as the display equipment which are compact in size but are capable of a large screen display.
This kind of liquid crystal display element is generally constituted such that drive electrodes which work as feeding electrodes for selecting pixels or feeding electrodes for switching elements are formed on one substrate, common electrodes are formed on the other substrate, these substrates are adhered to each other with both electrode sides thereof facing each other in an opposed manner, and a liquid crystal layer is sandwiched in the gap defined between these adhered substrates.
On the other hand, with respect to image forming means, a reflection type liquid crystal display element which is constituted such that common electrodes are formed on a transparent substrate, drive electrodes arc formed on an opaque substrate such as a silicon substrate these substrates are adhered to each other, and a liquid crystal layer or a polymer distributed type liquid crystal is sandwiched in the gap defined between these adhered substrates so as to form a liquid crystal panel, and this liquid crystal panel is embedded in a package is known as a compact liquid crystal display element capable of forming images of high definition.
The projection type liquid crystal display apparatus is equipment which generally forms images or the like on a liquid crystal panel, modulates (or controls) the transmitted light or the reflected light based on the generated image or the like, and projects the modulated light to a screen so as to obtain enlarged images.
FIG. 9
is an explanatory view showing an example of the construction of a liquid crystal panel which constitutes the reflection type liquid crystal display element employed by the present invention, wherein (a) is a plan view and (b) is a cross-sectional view taken along a line A—A in (a).
In this kind of liquid crystal display equipment, a liquid crystal composition or a polymer distributed type liquid crystal layer LC is sandwiched between one substrate (transparent substrate, common substrate) SUB
1
and, the other substrate (drive substrate or silicon substrate) SUB
2
and both substrates are adhered to each other by a seal material SL so as to form a reflection type liquid crystal panel and this panel is accommodated in the cavity of a package body PCG preferably made of resin, a flexible printed circuit board FPC for supplying signals and electricity is connected to one end periphery of the reflection type liquid crystal panel, and the panel is sealed by a front surface glass FGL so as to hermetically close the cavity.
The liquid crystal display equipment is further constituted such that a dielectric reflection film made of a multi-layered film covers electrodes formed on the inner surface of the drive substrate SUB
2
or electrodes per se are formed into reflection bodies (mirror electrodes). Here, the latter example is illustrated.
A metallic radiating plate HSC is mounted on the back surface of the package body PCG in such a manner that the periphery thereof is embedded in the four sides of the lower portion of the package body PCG and the liquid crystal panel is accommodated between the front glass FGL and the radiating plate HSC by way of a radiating sheet HDS having a relatively large resiliency. Accordingly, the liquid crystal display equipment is constituted such that the back surface of the liquid crystal panel is hermetically adhered to the radiating heat plate HSC by way of the radiating sheet HDS and hence, a sufficient radiating effect can be obtained.
The liquid crystal panel accommodated in the inside of the cavity of the package body PCG has the back side of one substrate fixedly secured to a shoulder portion formed on the inner periphery of the bottom portion of the package body PCG by means of an adhesive material ADH. Further, the front glass FGL is fixedly secured to the package body PCG and a spacer SPC for fixing the flexible printed circuit board FPC by means of an adhesive agent or the like. The spacer SPC is fixedly secured to the flexible printed circuit FPC by an adhesive material not shown in the drawing.
The liquid crystal layer LC is required to perform a function of modulating a polarized light component (P wave, S wave) into a corresponding incident polarized light component and another polarized light component in accordance with an applied voltage corresponding to an image signal. Here, for simplifying the description hereinafter, the explanation is made on the condition that the reflection type liquid crystal panel modulates a component which exits from an optical block into a P wave for inputting of a S wave and reflects a component which is not outputted from the optical block as a S wave.
As such a reflection type liquid crystal panel, panels adopting methods such as a homogeneous ECB (Electrically Controlled Birefringence) which uses parallel oriented nematic liquid crystal and makes use of the birefringence of the liquid crystal, a homeotropic ECB which uses a vertical oriented nematic crystal and makes use of the birefringence of the liquid crystal, a HAN (Hybrid Aligned Nematic) type ECB which changes the orientation between the common substrate SUB
1
side and the drive substrate SUB
2
side, or a SPTN (Single Polarizer Twisted Nematic) having the liquid crystal structure twisted by making use of both properties of consisting of the optical rotatory and the birefringence the liquid crystal, or SCTN (Self Compensated Twisted Nematic) have been proposed and put into practice.
Subsequently, an optical system (an optical block) of a liquid crystal projector which uses the above-mentioned liquid crystal display clement is explained.
FIG. 10
is a schematic view explaining the optical block which constitutes a conventional projection type liquid crystal display apparatus (liquid crystal projector) which uses the reflection type liquid crystal panel shown in FIG.
9
. This example of constitution is the simplest optical constitution of the optical system which uses three reflection type liquid crystal panels.
Further,
FIG. 11
is an exploded view showing respective components disassembly to explain the function of the optical block shown in FIG.
10
.
The optical system of this optical block is comprised of a lamp LMP, a polarization beam splitter PBS-G, a cross dichroic prism CD
1
, three reflection type liquid crystal panels RP-G, RP-B, RP-R and a projection lens PL.
An incident light IL outputted from the lamp LMP is separated into a S wave and a P wave by the polarization beam splitter PBS and these waves are respectively outputted in separate directions. Here, the explanation is made with respect to the optical system which uses the S wave as an input to the liquid crystal panels and hence, the S wave is directed to the cross dichroic prism CD and the P wave component is emitted to the outside of the optical system in FIG.
11
.
The S wave component inputted to the cross dichroic prism CD is separated into wavelength components of red (R), green (G), blue (B) in the cross dichroic prism CD and they are respectively inputted to the reflection type liquid crystal panels RP-R, RP-G, RP-B which are in charge of these wavelength components.
Reflected lights RL-R, RL-G. RL-B which arc subjected to the polarization modulation corresponding to the
Miyazawa Toshio
Yanagawa Kaoru
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