SU591842A1 - Thermostat - Google Patents

Description

(54)

Claims (2)

THERMOSTAT 11 Thermal conductivity coefficient Do-1 heater 12 with heat flux вf, thermo sensor heater 13 s; temperature t, contact 14 with heat conductivity (equal, for example, aluminum), chamber 15 thermostatically. In the stationary thermal regime at T Tjgj, the condition t ,,.; .., g "in ,, ... in"., In "A, L., 4A, ... 4A, L is observed. When the ambient temperature changes by the value, for example, 4dTr „, the temperature of temperature sensors-heaters, for example, posistor, is changed to At, Atj, tj ... At" .jt The presence of heaters 4, 6, 9, 12. with heat fluxes in, they are significantly changed not only by t-values, but also their direction. In the first group (cascade) consisting of a thermal sensor-heater 3, a nag switch and a thermal insulation strip 5, a change of-tAl oxp increases the resistance of the thermal sensor heater 3 (for example, posistor), the total resistance of the group (cascade) increases, and the power heat flux @j in heater b decreases. In the second group (cascade), the decrease in the heat flux Gj causes a sharp decrease in temperature ± ± .2 of the thermal sensor heater 7 (for example, posistor), a sharp decrease in the resistance of the thermal sensor heater 7 (for example, posistor) and a sharp decrease in the total resistance of the group (cascade) and, therefore, a sharp increase in heat flow Q. in the heater 9. In the third group (cascade), an increase in heat flow 8 causes a sharp increase in the temperature atj of the temperature sensor heater 10 (for example, posistor), a sharp increase in its rotivleni sharp increase in the total resistance groups (cascade), aijsledovatelno, a sharp decrease in the heat flow in the heater 12. In each even group varies thermode temperature on the heater-value-At- (varies phase), when the ambient temperature changes. In each odd group, except for the first one, the temperature of the heating sensor heats up by the value of ut (the phase repeats when the ambient temperature changes). The error of temperature control in the thermostating chamber is reduced by At. A thermal sensor heater 13 is connected to a thermostatic control by means of a thermostat by a tact 14 and has the same temperature with it. The sensor-heater 13 is electrically connected to the heater 4 and acts as a thermal feedback between the output and the inlet, i.e. between thermal sensors heater No. 1 13, 16 and thermal sensor heater 3. At the same time, heat flux affects the thermal sensor heater 3 and reduces involuntary temperature fluctuations t, arising, for example, during voltage fluctuations. The proposed thermostat has a higher accuracy of temperature control, the ability to change the phase of the temperature change in the thermostating chamber and is much cheaper than the known one. The invention The thermostat containing a heat insulating casing with a valve, inside which is located the thermostating chamber and; thermal sensors-heaters connected in parallel to the power source, so that, in order to improve its accuracy The work contains additional heaters, each of which is connected in series with the corresponding thermal sensor-heater spruce, with each additional heater being installed through a thermal insulation strip on the subsequent thermal sensor: the heater, and the last thermal sensors-heaters are installed on the thermostating chamber. Sources of information taken into account in the examination: 1. The copyright certificate 296086, cl. O 05 D 23/30, 12.11.71. 2. U.S. Patent 3,878,357; H 05B 1/00, April 15, 75.