SU1068976A1 - Display unit - Google Patents

Abstract

The INDICATION UNIT, comprising a case in which an information panel is installed, is made up of a set of optical elements made of monodisperse glass with through porosity and a maximum distribution of pore sizes in the 20004000 region and a pore filler in the form of a liquid crystal substance with a variable refractive index under the action of temperature, characterized by that, in order to reduce power consumption and increase reliability by increasing the contrast and clarity of the image under normal illumination, it optically These elements are interconnected by side faces, one of which is coated with a thin film resistive heater. ABOUT)

Description

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The invention relates to automation and computing technology and can be used in devices for displaying information of control objects and technological systems in the operation and configuration of large systems operating under energy-limited conditions.

A display unit is known, which contains a multilayer structure of conductors and electroluminescent layers til.

The disadvantages of this unit are low contrast and image clarity, especially under normal lighting.

The closest to the present invention is the display unit, which uses glass with through porosity with a maximum distribution of pore sizes in the region of 20004000 /, using a liquid, for example, glycerin, as a filler, and a heater C21,

The disadvantages of this unit are the high power consumption and low reliability due to the increase in time for transients, while the contrast and image clarity are reduced.

The purpose of the invention is to reduce power consumption and increase reliability by increasing the contrast and clearness of the image under normal illumination.

The goal is achieved by the fact that in the display unit containing the (body) in which the information panel is installed, is made as a set of optical elements made of monodisperse glass with through porosity and maximum distribution of pore sizes in the region of 20004000 K and the filler of pores in the form of liquid glass; substances with a variable index, refracted by temperature, optical elements are interconnected by side

faces, on one of which a thin film resistive heater is applied.

FIG. 1 shows a display unit, the general view of FIG. 2 - section A-A in FIG. 1 in FIG. 3 — optical composing element, axonometrics.

The display unit includes a housing 1 with holes 2 for attaching the information panel in the form of a set of optical elements 3, pin contacts 4, which are connected to the power supply and welded (soldered) to the contact pads 5 of the resistive heater 6.

Optical element 3 is a parallelepiped of porous glass with a liquid crystal filler. On one of the faces of the optical element 3 a thin-film resistive heater 6 is placed with contact pads 5. When installed in the housing 1, the optical elements 3 are joined to the faces, and the edge of one optical element with a resistive heater 6 contacts the face of another optical element where there is no electric heater Resistive heaters 6 are electrically connected to each other at the pads 5.

The display unit operates as follows.

When voltage is applied to the logging contacts 4, the thermal field of the resistive heaters 6 changes the optical properties of the optical filler and the information panel of the display unit becomes transparent. When docked, the display unit comes to its original opaque state.

By placing resistive heaters in the volume of the information panel, power consumption is reduced and the contrast of the device is increased, which ensures reliable operation of the display unit in rooms with any level of illumination.

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Claims (1)

INDICATION BLOCK containing a housing in which an information panel is mounted. It is made in the form of a set of optical elements made of monodispersed glass with through porosity and a maximum pore size distribution in the region of £ 20004000 and a pore filler in the form of a liquid crystal substance with a variable refractive index under the influence of temperature, characterized in that, in order to reduce power consumption and increase reliability by increasing the contrast and clarity of the image under normal lighting conditions, it has optical elements are interconnected by lateral faces, one of which is coated with a thin-film resistive heater. Φί / 2.1