SU1061115A2 - Multichannel device for control of heating constant-temperature cabinet - Google Patents

Abstract

MULTI-STYLE DEVICE DASH HEAT MANAGEMENT THERMOSTAT ON AUT.St. 756372, which differs from that, with and; to improve reliability, it contains Element And in each channel and connected to the output of the power amplifier and a second threshold element connected in series: and an inverter. whereby the AND element is connected between the output of the first threshold element and the inputs of the elements OR of other channels, a second. An input terminal is associated with an inverter output. about: ate

Description

The invention relates to redundant automatic temperature control systems and can be used when developing a thermostat with increased reliability. According to the main auth. 756372 A device is known that contains a serially connected TV sensor and a power amplifier in each channel, a main heating winding, the first terminal of which is connected to the output of the power source, a key and a threshold element, and also an OR heating winding in each channel, a differential capacitor and s1MSh1Itudny detector, and, in each channel, the second output of the main heating winding is connected to the output of the power amplifier parallel to the additional winding of the heater connecting ene key, the control input of which is connected to the output of the OR gate, whose inputs through .soot sponding threshold elements are connected to amplitude detectors vyhodsTs other channels. The disadvantage of the device, which reduces its performance, is that if there are malfunctions resulting in the output of the power amplifier of one of the uncontrolled low potential channels, the heater of this KaHaJia is permanently connected to the power source and will be unregulated on it power is equal to 1/3 of the total heating power of all channels. At the same time, as a result of the operation of the corresponding switches, additional heating windings in the working channels are closed, which will lead to an even greater increase in the maximum heating power of the thermostat. For a thermostat operating at a wide range of ambient temperatures, such an increase in heating output is undesirable. The purpose of the invention is to increase the reliability of the multichannel device for controlling the heating of the thermostat. The goal is achieved by introducing into the multichannel device for controlling the heating of a thermostat, an AND element and a second threshold element and an inverter connected in series to the output of the power amplifier and connected between the output of the first threshold element L and other channels, and the second input is connected to the output of the inverter. The drawing depicts a block diagram of the device. The device contains power amplifiers 1-3, thermal sensors 4-6, thermostat 7, power supply terminals 8-10, main heating windings 11-13, additional heating windings 14-16, keys 17-19, control inputs of keys 20-21, differentiating capacitors 23-25, first threshold elements 26-28, amplitude detectors 29-31, inverters 32-34, second threshold elements 35-37, elements AND 38-40, elements OR 41-43. The circuit elements are interconnected as follows. B. Thermal sensors 4-6, power amplifiers 1-3, main and auxiliary windings 11-13, 14-16, power supplies 8-10 are connected in series to the Xc1cc channel. In parallel with the additional heating windings, keys 17-19 are included, the control inputs of which are connected to the outputs of the elements OR-41-43. Two consecutive chains are connected to the outputs of the power amplifiers; differentiating capacitors 23-25, amplitude detectors 29-31, first threshold elements 26-28, second threshold elements 35-37, and inverters 32-39. The outputs of the first threshold elements and inverters are connected to the input elements And 38-40, the outputs of which are connected to the inputs of the elements OR of other channels. The device works as follows. In the absence of malfunctions in each channel in the thermostat 7 of the device, a two-position control is carried out by signals with a temperature sensor 4-6, which periodically connects the heating windings 11-13, 14-16 to the power sources 8-10. The pulse voltage appearing at the outputs of power amplifiers 1-3, after differentiating capacitors 23-25, becomes alternating and rectifies the amplitude IV with detectors 2931, at the output of which a constant voltage is generated, triggering the threshold elements 26-28 intended for matching the output voltage amplitude detectors with an input level of logic elements And 38-40, usually having a standard value. In turn, threshold elements 35-37 are designed to match the voltage levels at the output of power amplifiers with input levels of logical elements NOT (inverter) 32-34, and when the threshold element is triggered, an O signal is generated at its output. Thus, at normal All channels of one of the inputs of elements 38-40 always have a signal O. Therefore, all inputs of the elements OR 41-43 and control inputs 20-22 of keys 17-19 will also have the signal O, which will cause additional windings to open heating 1 5.16. At the same time, the maximum power required for the installation of the all-winding thermostat preheater will be tac R ',. The R axis is the additional resistance of the main heating winding / the resistance of the additional heating winding. When faults occur in one of the channels, leading to the establishment of the rfa output of the power amplifier, for example 1, an uncontrolled high potential, the voltage at the output of the amplitude detector 29 is equal to zero, and the output of the threshold element 26 is set to 1. At the same time, Inverter 32 will also be set to logic level 1. Consequently, the output of element 38 also has a logic level 1, which, through the elements OR 42, 43, goes to the control inputs of keys 18, 19 and causes them to close. As a result, the maximum heating power in two serviceable channels will increase, which, with an appropriate choice of resistance, the heating winding can completely compensate for the power loss in the first channel. This power will make. Calculations show that if in the 3-channel system the resistance of additional windings is 2 times less than the resistance of the main windings, when the indicated cyjwMapHcUi fault occurs, the maximum heating power will not change and all the metrological and operational characteristics of the thermostat are fully preserved. When the output of the power amplifier of one of the channels, for example, the first uncontrolled low potential, as in the specified case, the output of the threshold element 26 will be signal 1. However, the output of the inverter 32 will be the signal O. This signal will also be the output of all elements AND and OR, as a result of which the additional windings of the preheater are opened and the maximum heating power of the operating kangshov is reduced. Thus, an increase in the maximum power of healthy channels in the device occurs only when an uncontrolled high potential is established at the output of the power amplifier, which increases the reliability of the thermostat and expands its operational capabilities.

Claims (1)

MULTI-CHANNEL DEVICE FOR CONTROL OF HEATING OF THE THERMOSTAT on autosw. 756372, characterized by the fact that, with and to improve reliability, it contains in each channel the Element Й and the second threshold element and the inverter connected to the output of the power amplifier and connected in series, and the And element is connected between the output of the first threshold element and the inputs elements OR other channels, and secondly. The input is connected to the inverter output.