RU2055498C1 - Multicolored application - Google Patents

Abstract

FIELD: light industry. SUBSTANCE: MULTICOLORED application comprises a base and some elements applied thereto. Each element is formed by a heat-sensitive paint which is capable of changing its color on reaching the color transition temperature under the changing ambient temperature. Each element of the MULTICOLORED application is placed alongside of the adjacent element and consists of one layer of heat-sensitive paint. The heat-sensitive paints of each element have the same color transition temperature as the other heat-sensitive paints which form the MULTICOLORED application and their color differs from that of the adjacent element. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to light industry and can be used in the manufacture of clothing parts intended for decoration and decoration, can be used in mechanical engineering and construction.

 Thermal indicator paper based on melting temperature indicators is widely known for recording and fixing the ambient temperature. In these samples, when the set temperature is reached, the heat-sensitive mixture deposited on the substrate becomes transparent and the color of thermal paper changes from the color of the heat-sensitive mixture to the color of the substrate. It is also known to use reversible thermal paints in industry for applying inscriptions and signs to the surface of a controlled object that appear when the set temperature is reached.

 The closest technical solution to the claimed one is the well-known application of thermal paints based on liquid crystals heated from an external source of electricity of individual elements of the application, obtained by the method of applying several layers to one another, superimposed monochromatic images with sequential visualization of these images, which consists in the fact that the substrate apply several layers of liquid crystals, separated by transparent plastic. Each layer has the image form of the reproduced area and is formed by a mixture of liquid crystals that change color at a transition temperature different from the temperature at which other layers overlap.

 The disadvantage of this technical solution is the impossibility of obtaining a color application consisting of several segments of different colors, which, when a certain temperature is reached, changes to another color multicomponent picture, as well as the impossibility of obtaining equally well saturated color pictures at different temperatures before and after a color transition in the entire operating range temperatures. This is due to the fact that the technical solutions described above use several thermal paints at the same time, each of which changes color when its specific temperature is reached, as well as the inability to obtain the same well-saturated colors on the surface of multicomponent thermal application when several layers of thermal paints are used to obtain an image when the upper layers weaken and change the color saturation of the lower layers.

 The purpose of the invention is to eliminate these drawbacks and to create a reversible multicomponent color application, which simultaneously changes from one to several times to other color multicomponent applications when various specified values of the ambient temperature are reached.

 This goal is achieved by the fact that for the manufacture of color multicomponent applications using reversible thermal paints applied to adjacent areas of the thermal application in one layer, having the same temperature color transitions, but different initial and final colors.

PRI me R 1. The drawing shows a device that implements the proposed multi-color application. Heat-sensitive reversible paints 1 and 2 are applied to the substrate 3. In this case, paints 1 and 2 have the same color transition temperature T _lane , however, different initial and final colors before and after the transition. Thus, after exceeding the ambient temperature T _env. transition temperature T _lane color two-component application in drawing 1 will completely change its color scheme. As termokrasok 1 and 2 used traded thermochemical ink 31 and the 4b (classification TU 133-67), having in the initial state at temperatures up to 70 ° ^C and light pink-green and green color light and blue color in the final state at a temperature above 70 ^about With, respectively. As the substrate 3, a polyethylene substrate was used. The transition temperature for both colors is the same and equal to 70 ^about C.

EXAMPLE 2. As thermal paints 1 and 2, to create a series of color transformations, we can use liquid crystal indicators based on Cl and C4 cholesterol, having the same operating temperature ranges and up to 5 color transitions, the same operating temperature ranges and up to 5 color transitions in these ranges. These thermoindicators at temperatures ranging from 31.5 ^{° C} to 36 change color as follows. C1 and C4 are respectively at 31.5 ^C. yellow and red colors, at 31.9 ^C. green and orange, at 32.5 ^C blue and green, at 33.0 ^C blue and blue, at 36 ^{° C} purple.

Claims (1)

 MULTI-COLOR APPLICATION, consisting of a base and applied elements, each of which is formed by a heat-sensitive paint, which has the property of changing the color of the paint when the color transition temperature is reached when the ambient temperature changes, characterized in that each element of the multi-color applique is located next to adjacent elements, made of one layer of heat-sensitive paint having the same color transition temperature with other heat-sensitive paints, forming a lot color applique, and has a color different from the color of the neighboring element.

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