SU1760377A1 - Method of monitoring of distribution of temperature fields - Google Patents

Abstract

The use of the invention relates to a germose v mohette to be used dg. controlling the distribution of temperature fields, for example, in projection devices. SUMMARY OF THE INVENTION A method for controlling the distribution of temperature fields in which a liquid crystal thermal indicator film is placed in a zone of a controlled temperature field and the resulting partial image is projected onto a screen allows the functionality of the method to be expanded by possibly ... films on a substrate with a transmittance of 0.2-0.5.

Description

The invention relates to thermometry, and in particular to methods for controlling the distribution of temperature fields, for example, in various projection ranges.

A known method for measuring the temperature distribution in a frame window is a prospect in which a liquid crystal thermal film made on an opaque substrate is placed in the frame window of a projection device, the lens is removed and the temperature distribution is observed on the specified railway o-fistylethermic thermal film

This method is inconvenient and difficult to implement, as it does not allow to project the obtained image of temperature distribution on the screen in transmitted light.

There is a known method of converting thermal radiation into a visible image, in which a liquid crystal thermal indicator film is placed in the area of the polished tempearic floor and a color image from the film is projected onto the screen.

The disadvantage of the known method is that it cannot be used for projection in transmitted light.

The aim of the invention is to enhance the functionality of the method, by projecting in transmitted light.

The goal is achieved by the method of controlling the distribution of temperature fields in which a liquid crystal thermal film is placed into the zone of the copolylated temperature field and the image obtained on it is projected on the screen, five,

The method is carried out as follows.

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An indicator film is placed in a controlled polar polch, while a thermal indicator film is made on the basis of an “olesteric liquid crystal composition selectively transmitting light depending on the temperature and deposited on a substrate with a transmittance of 0.2-0.5. This limit of the transmittance is due to the fact that when light passes through the cholesteric liquid crystal medium, light is decomposed into two components, one of which is characterized by the property of selective transmission, depending on temperature, and the second component passes through the liquid crystal medium unchanged. To obtain a sufficient contrast in the color image of the temperature field, it is necessary to reduce the effect of the second component of the light, which is achieved by dimming the substrate to a transmittance in the range of 0.2-0.5. A decrease in transmittance to 0.1 leads to a deterioration of the image contrast, and an increase to 0.6 contributes to the disappearance of the thermal image.

When placing a thermal-indicator film in the zone of a controlled temperature field, differently heated areas of the film will have different colors. The projection of the image obtained on it on the screen and knowing the known color temperature characteristic curve (CTX) to which temperature this or that color corresponds to, it is possible to construct isotherms of the temperature field under control.

By using thermal indicators operating in different temperature ranges and having different curvature of CTH /, it is always possible to choose a thermal indicator that provides the necessary accuracy of measurements when visually analyzing the pattern of temperature distribution on the screen.

The described method of controlling the distribution of temperature fields can be used, for example, in different types of slide projectors to control the distribution of temperature fields in a frame window.

For this, the indicated liquid crystal heat-index film is placed instead of a transparency in the frame window of the projection device and with the help of the overhead projector lens a color image of the temperature floor is projected onto the screen in transmitted light.

Temperature values can be determined visually by comparing the colors of the observed pattern with the CTH of the thermal indicator film used.

The proposed control method is extremely simple, since does not require any alterations of controlled objects, highly informative, because allows to obtain not only the desired temperature distribution, but to study it in dynamics and under different temperature conditions of operation.

Claims (1)

The invention The method of controlling the distribution of temperature fields, in which a liquid crystal thermal indicator film is placed in a zone of a controlled temperature field and the image obtained on it is projected onto a screen that is different in that, in order to enhance the functionality of the method in transmitted light The liquid crystal thermal indicator film is made on a substrate with a transmittance of 0.2-0.5.