SU1075306A1 - Device for displaying information - Google Patents

Abstract

1. A DEVICE FOR DISPLAYING INFORMATION containing an optically coupled point source of light, a collimator, a light modulator with linear electrodes, the control inputs of which are informational. The device has first and second cylindrical lenses, a flap, a scanning mirror with a drive, the control input of which is the control input of the device and a screen, characterized in that, for image quality, the device contains a diffusing cylindrical lens forming oriented perpendicularly to the linear electrodes of the modulator of light, mounted between the Q collimator and the modulator of the light. 5S (L -vl ate 00 o

Description

2, the device according to claim 1, about t l and that the valve is made in the form of an opaque strip:

oriented parallel to the linear electrodes of the light modulator.

The invention relates to a technique for recording and reproducing information on deformable layers by electrographic method. A device is known in the form of a storage cathode ray tube containing a glass ko, forehead, inside of which is an electronic recording illuminator and a flat screen, in parallel with which is a holder made in the form of a mica plate on which a record carrier is applied, made in the form of a dielectric deformable layer and thin mirror metal coating l The disadvantage of the device is the placement of the deformable layer in a vacuum, which leads to the destruction of the carrier and a decrease in the service life of the device. A matrix relief indicator with a deformable gel-like s / s is known, in which the electrode lines are made in the form of a periodic lattice of transparent conductors. They are arranged perpendicular to the column electrodes and covered with a deformable layer. The recording of information is carried out by an electric field. The recorded relief is reproduced by a slit optical device 2. The disadvantage of the device is the low brightness of the reproduced image due to the lack of information storage. The closest technical solution is an optical recording and reproducing device containing an optically coupled point light source, a collimator, a line electrode with a linear electrode, the control inputs of which are information inputs of the device, the first and second cylindrical lenses, a flap, a scanning mirror with a drive, the control input of which is the control input of the device, and a screen. The optical system creates an image line on the screen modulated by the brightness modulator relief. The device can be used for optical recording and reproduction of information 3j. The drawbacks of the device are low image quality due to low vertical resolution and image brightness. The aim of the invention is to improve the image quality. The goal is achieved in that a device containing an optically coupled point source of light, a collimator, a light modulator with linear electrodes, the control inputs of which are information inputs of the device, the first and second cylindrical lenses, a flap, a scanning mirror with a drive, control The input of which is the control input of the device and the screen, a diffusing cylindrical lens is inserted. The generators of which are oriented perpendicularly to the linear electrodes of the light modulator, mounted between the collimator and the light modulator. In this case, the flap is made in the form of an opaque strip oriented parallel to the linear electrodes of the light modulator. FIG. 1 shows the scheme of the proposed device; in fig. 2 - parallel transparent electrons of the light modulator. The device contains a point source 1 of light, a collimator 2, a scattering cylindrical lens. 3, the light modulator 4, the first and SECOND cylindrical lenses 5 and 6, the flap 7, the scanning mirror 8 with the actuator 9 and the screen 10.. The light module 4 is made in the form of linear electrodes 11 coated with a gel layer 12, Position 13 14, respectively, determine the information and control inputs of the device. A diffuse cylindrical lens 3 is located between the collimator 2 and the modulator 4 of the light. The first cylindrical lens 5 is located between the modulator 4 of the light and the second cylindrical lens 6. The opaque shutter 7 is located in the focus of the first cylindrical lens 5 forming the diffusing cylindrical lens 3 and the second cylindrical lens b are perpendicular to the linear electrodes 11. The formers of the first cylindrical lens 5 and the opaque flap 7 are perpendicular to the pattern of the scattering cylindrical lens 3. Scanning mirror 8 straight conduct 9 are arranged directly after the opaque flap 7. The screen 10 is optically coupled with the light modulator 4 of the first cylindrical lens 5 and the light source I through the collimator lens 2 and the third cylinder 6. The device operates sledukitsim of time. Information is recorded. Line-by-line. Voltages 0-300 are sent to the control inputs of the modulator 4 of the light from the information inputs 13 of the device, which create a modulating electric field on the deformable layer 12 Parallel electrodes 11 cause the formation of a relief of the deformable layer 12 in accordance with the information contained in the image line. The collimator 2, the scattering cylindrical lens 3 and the second cylindrical lens b form a telescopic spherocylinder system having small dimensions and projecting the light source 1 to the screen 10 with vertical magnification of ft 3-5. In this case, the vertical height of the line is 3 m-5 mm. The first cylindrical lens 5, in the absence of deformations of the gel-like layer, projects the entire luminous flux to the opaque flap 7, and in the presence of deformations, cork. t compresses the image of the surface of the deformable layer onto the screen 10 in the form of a modulated light line. A scanning mirror 8 with a drive 9 provides a frame scan of the image. Frame synchronization is performed via control input 14. Elastic gel layers based on synthetic rubber have a constant recording and erasure time of 10–20 µs and allow displaying information in real time. The deformable gel-like layer and the proposed optical system have a linear light-modulation characteristic in the range of control voltages 50250 volts and allow reproduction of half-tone images. The density of linear electrodes can be 25 lines / mm, which ensures a 40 X 40 mm2 frame size of the gel-like layer. each line has 1000 image elements. The proposed relief device can be used to display television information and output information from. Large screen computers in information systems and automated control systems. The use of a cylindrical diverging lens in the device makes it possible to reduce the overall dimension along the optical axis to 0.8–1.0 m and obtain a light line at a projection distance of 3-5 m, a height of 3-5 mm. This increases the resolution of the device. The use of a damper in the form of an opaque ribbon improves image quality and increases the sensitivity of the utilization of light flux.

Claims (2)

1. A DEVICE FOR DISPLAYING INFORMATION, containing optically coupled point source of light, a collimator, a light modulator with linear electrodes, the control inputs of which are informational. the input inputs of the device, the first and second cylindrical lenses, a shutter, a scanning mirror with an actuator, the control input of which is the control input of the device and a screen, characterized in that, in order to improve image quality, the device contains a diffusing cylindrical lens, the form of which is oriented perpendicular to linear electrodes. a light modulator installed between the collimator and the light modulator. SU „„ 1075306 2. The device according to π. 1, the fact that the shutter is made in the form of an opaque strip. oriented parallel to the linear electrodes of the light modulator.