SU1202081A1 - Resistive film heater - Google Patents

Abstract

The invention allows simultaneously with heating to control the temperature of the film heater without the use of additional temperature sensors. The purpose of the invention is to reduce the error in temperature control of heaters from a material with a thermodependent resistivity. Heating-; The body is made in the form of two strips 1 and 2 of a variable width resistive film placed on a dielectric substrate. The main current grousers (T) 3 are placed along the edges of the film, and the additional T 4 are installed on each of the strips and divided into sections with the same resistance. The device operates like a measuring bridge, whose shoulders are the resistances of the four film sections, which vary depending on their temperature. 1 hp f-ly. Zil.

Description

Aa

Claims (2)

Chie.g The invention relates to film resistive heaters with a temperature gradient on the surface, preferably for heating flow media with temperature control. The aim of the invention is to reduce the temperature control error for heaters from a material with a thermodependent resistivity. FIG. 1 shows a resistive film heater, the general view of FIG. 2 is a section .A-A in FIG. IJ in FIG. 3 is a replacement scheme. The heater consists of two identical films of variable width, two main current-carrying 3 and an additional 4 electrodes that divide the film strips into sections with the same resistance (at 20 ° C), i.e. Rf rz. K4 - A film heater is deposited on a di, electric substrate 5, which serves as a glass-enamel coating laid on a metal base 6. Over the film 1, 2 an additional glass-thin coating 7 is laid, providing electrical insulation and. sealing film heater. The operation of the device is explained by the replacement circuit (Fig. 3). The proposed device operates in the same way as a measuring bridge, whose shoulders are the resistances of the film sections K |, Rj, Rj and R ' varying with the temperature of the film, while the resistances Rj and Rj change. It goes more intensively than the change in resistances R and R, since the surface density of the heat flux in these sections of the heater film strips is larger, which leads to their greater heating and, consequently, a change in resistance. tivleniye. Thus, there is an imbalance of the bridge, proportional to the temperature of the heating of the film nag / revatel. J. Bridge circuit readings are graduated by temperature on the working surface of the heater. The resistances RJ and RJ increase with a positive one and decrease with a negative TCR of the film, while the imbalance of the bridge is proportional to the absolute. The value of the TKS film also increases significantly if the sections of each film strip that lie between the main and additional electrodes with the same area of the film are made: from a material with a temperature coefficient of resistance opposite in sign to the material from which the other two sections are made. Metal base 6 contributes to the achievement of temperature uniformity on the working surface of heat exchange, despite the presence; significant temperature gradient in the resistive coating. Making the heater of two oppositely arranged bands of variable width with additional electrodes allows simultaneously with heating to carry out temperature control of the heater without additional temperature sensors, which allows to reduce the measurement error and use the heater simultaneously as a temperature sensor. . Claims 1. A resistive film heater containing a re-awave film deposited on a dielectric substrate laid on a metal base and current-carrying electrodes placed on the edges of the film, O. distinguished by the fact that, in order to reduce the error in temperature control of heaters from material with thermo-dependent resistivity and enhanced functionality, the resistive film heater is implemented in the form of two opposite widths of variable width, and on each of an additional electrode of affairs conductive strip into sections with the same resistance. 2. The heater according to claim 1, which is tallable by the fact that two areas of the same area lying between the main and additional electrodes are made of a material with a temperature coefficient of resistance opposite in sign to the material from which the other two sections are made. Kl