SU842602A1 - Device for measuring two voltage ratio - Google Patents

Description

(54) AUTOMATIC CONTROL DEVICE FOR HEATING SYSTEM

I

The invention relates to the thermal removal of snow and ice from various surfaces (pavements, bridges, open staircases, roofs, etc.), and more specifically, to the automation of the heating systems of said surfaces.

A device for automatic control of a heating system is known, which comprises a conductometric humidity sensor and a control circuit 1.

Closest to the present invention is an automatic control system for a heating system comprising a thermal switch, a conductometric humidity sensor with two electrodes, with a thermal switch and a heating element, and two amplifiers 2.

The disadvantages of these devices are low operational reliability and unnecessary power consumption.

The purpose of the invention is to improve the reliability of the device and save energy costs.

The goal is achieved by the fact that a device for automatic control of a heating system containing thermal relays, conductometric humidity sensor with

two electrodes, with a thermal switch and a heating element and two amplifiers, are equipped with AND-NOT and AND logic switches, two inverters, and a trigger, with the input of the first inverter connected via a thermal switch to one of the electrodes of the conductometric humidity sensor, which is connected via its own thermal switch to the input of the second an inverter, the output of which is connected to one of the inputs of the AND element, the other input of which is connected to the output of the first inverter, to one of the inputs of the NAND element and to one of the trigger inputs, the other input connected to the output of the NAND element, one of the outputs of the trigger is connected to the input of the first amplifier, another output of the trigger is connected to the corresponding input of the element I, the output of which is connected to the input of the second; amplifier, the outputs of which are connected to the heating element, and the other electrode of the conductometric humidity sensor connected to the other input element AND.

The drawing shows a diagram of the device.

It contains a thermal relay 1, a conductometric humidity sensor 2 with two electrodes 3 and 4, with a heating element 5 and a thermal relay 6, a control unit 7 with RS type trigger 8, logic switches AND-HE 9 and 10, the first 11 and second 12 inverters and the first 13 and second 14 amplifiers. Elements 8, 9, 11 constitute an R-trigger.

The device works as follows.

The effect of the humidity sensor is based on a sharp decrease in the electrical resistance between the two electrodes when the space between them closes with water formed from snow or ice.

The humidity sensor and the temperature sensor are mounted so that their surfaces are flush with the surface of the heated object.

At low temperatures, less us-, the operation of the thermal relay is triggered, for example + 2 ° C, the thermal relay contacts are open and the signals from them through And and 12 inverters, logic elements 9 and 10 and trigger 8 provide the output signal to the input of the amplifier 14, thereby turning on power to the heating element 5.

Due to this, the surface of the conductometric humidity sensor 2 is heated to a set point temperature of 2 ° C and is ready for operation. In the absence of precipitation in the form of snow and the need for heating the road, sensor 2 does not work (high resistance between electrodes 3 and 4) and there is no signal at the input of Zo amplifier 14. The temperature of sensor 2 is two-way controlled. When precipitation appears in the form of snow or when ice forms in sensor zone 2, snow or ice will melt, since its surface is heated above that snow temperature. It will work, i.e., it issues a signal to the input of the NAND 9 element, which triggers the trigger 8, the output of which changes the signals that cause the signals at the inputs of the amplifiers to change, i.e. A signal Zg appears, and therefore, the heating system is turned on and the signal Z is turned off, i.e. the heating element 5 is turned off if it was previously turned on during the on-off control. This condition will continue until the heaters of the heating system remove the snow or ice cover. After that snowing, the temperature of the coating rises to a temperature above the setpoint of the thermal relay 1 and b, the operation of which will ensure the switching of the trigger 8 and, therefore, the shutdown of the system, regardless of the state of humidity. The elements of the control unit 7 provide logical operations at the outputs Z o and Z w depending on the signals from the sensors in |, in and in j according to the dependencies

2o (and

 shit

where y is variable feedback from the Zo output.

Claims (2)

Invention Formula An automatic control system for a heating system containing a thermal switch, a conductometric humidity sensor with two electrodes, a thermal switch and a heating element, and two amplifiers, characterized in that, in order to improve the reliability of the device and save energy, it is equipped with AND-NOT logic elements, two inverters and a trigger, wherein the input of the first inverter is connected via a thermal switch to one of the electrodes of a conductometric humidity sensor, which is connected via its own thermal switch to the input of a second inverter, the output of which is connected to one from the inputs of the AND element, the other input of which is connected to the output of the first inverter, to one of the inputs of the NAND element and to one of the trigger inputs, the other input of which is connected to the output of the NAND element, one of the trigger outputs is connected to the input of the first amplifier, another output of the trigger is connected to the corresponding input element And, the output of which is connected to the input of the second amplifier, the outputs of which are connected to the heating element, and another electrode of the conductometric humidity sensor is connected to the other input of the NAND element. Sources of information taken into account in the examination 1. Ciemochonski M. F. “Simple letector prediction”, SAP Journal, 1968, No. 8, p. 600--61. 2. Patent US No. 3164820, cl. 340-234,1965 (prototype).