CS243783B1 - Electronic thermostat with non-returnable thermal fuse - Google Patents

Abstract

Electronic thermostat with an irreversible thermal fuse, equipped with an electrical temperature sensing element. The problem solved is to improve the temperature control of storage furnaces. This is achieved by connecting the temperature sensing element (TSPJ) to the first input {—Vij of the first operational amplifier (OZ1) and to the second input (3-VZj of the second operational amplifier (OZ2) and via a resistor (R) to the source (Urj of the reference voltage, the second output of the temperature sensing element (TSP) is connected to the neutral conductor, the first source (Url) of the reference voltage is connected to the second input (+V1) of the first operational amplifier (OZ1) and the second source (Ur2) of the reference voltage is connected to the first input (—V2) of the second operational amplifier (OZ2), the output of the first operational amplifier (OZlj is connected to the first switching element (SPI), which is connected via the winding of the electromechanical switching element (ESP) and a series combination of a protective resistor (Roj and a fuse (Po) to the source (Unj of the voltage and the output of the second operational amplifier (OZ2) is connected to the second switching element (SP2), which is connected to the common winding point of the electromechanical switching element (ESÍ?) and the series combination of the protective resistor (Roj and fuses (Po).

Description

243783

BACKGROUND OF THE INVENTION The present invention relates to an electronic thermostat with a non-returnable thermal fuse equipped with an electrical temperature sensing element.

So far used electronic thermostats in the event of a sensor failure, permanently heating the working space, the temperature of which is not increasing, or in other types of electronic thermostats the working space remains unheated. When using conventional liquid or bimetallic thermostats, a single thermostat, set a few degrees higher, is needed as a fuse.

The above-mentioned drawbacks are eliminated by the connection of an electronic thermostat with a non-returnable thermal fuse according to the invention, the principle of which is that the temperature sensor element is connected to the first input of the first opener and to the second input of the second op-amp and via the reference source of the reference voltage, the second source of the temperature sensing element is coupled to the neutral, the first source of reference voltage is connected to the second input amplifier, and a second reference voltage source is connected to the first input of the second operational amplifier, the output of the first operational amplifier is coupled to the first switching element is connected via an electromechanical switching element winding and a series of protective resistor and fuse combination to the voltage supply, and the output of the second operational amplifier is connected to a second switching element connected to the common el. ectro-mechanical switching element and series-combination protective resistor and fuse.

By utilizing an electronic thermostat with an irreversible fuse according to the invention, the utility value of the storage devices for which it is intended is increased. It is essential to reduce electricity consumption, since the ter- bridge is also designed to be connected to an auto- matic charging station for storage heaters with an external temperature. It removes the use of two thermostats because they contain a thermal non-returnable fuse.

The accompanying drawing shows one of the examples of wiring an electronic thermostat with an irreversible thermal fuse according to the invention.

An electronic thermostat with a non-returnable thermal fuse is connected so that the TSP thermal element is connected to the neutral conductor at one outlet and the other to the RV at the first inverting input of the first operational amplifier OZ1 and the second, non-inverting input + V2 the second. operational amplifier OZ2. ResistorR is connected to the power supply by a second terminal

Ur reference voltage. The second, non-inverting input 4-VI of the first operational amplifier OZ1 is coupled to a first source of reference voltage voltage Ur1. The first inverting input V2 of the second operational amplifier OZ2 is connected to a second reference voltage source Ur2. The output U1 of the first operational amplifier OZ1 is connected to the first switching element SP1 via a drive resistor. The output U2 of the second operational amplifier O2 is connected to the second switching element SP2 via a further drive resistor. The first switching element SP1 is the winding of the electromechanical switching element ESP and the protective element Eye, opened by the serial connection of the fuse Po and the protective resistor Ro connected to the source Un voltage. The second switching element SP2 is connected to the coil winding point of the electromechanical switching element ESP and protective member Eye.

The antiparallel connection of the inputs of the two opener amplifiers OZ1, OZ2, one of which acts as a switching element driver and the other as a driver of the switching shorting element of the supply voltage of the contactor and of the entire electronic system. The plug works as follows: an element is used as the temperature sensing element TSP, which increases its internal resistance with increasing temperature. A voltage corresponding to the selected temperature is applied to the non-inverting input + V1 of the operational amplifier OZ1. A voltage is applied to the inverting output (V2) of the second operational amplifier OZ2, which is a higher voltage corresponding to the maximum operating temperature by a value that corresponds to the non-returnable temperature. If the input applied to the non-inverting input V1 of the first operational amplifier OZ1 is greater than the voltage from the sensing element TSP, the arrester is closed. At the moment the voltage is equalized, the first operational amplifier OZ1 is switched over and the contactor is switched off. This keeps the temperature selected. In the event of a failure when the voltage of the sensing element TSP reaches an irreversible voltage level, which is at the inverting input V2 of the second operational amplifier OZ2, this tip and its sensing element over the protective resistor Ro and the fuse PO will shorten the supply voltage of the contactor to. If the resistor R is interrupted, the contactor trips, Tentostav, due to the connection of resistor R to the source Ur of the reference voltage higher than the voltage of the irreversible trip, occurs also when the feeds of the sensing element are broken. Fuse Po with protective resistor is bridged by a signaling glow lamp that lights up when the fuse is interrupted. The invention can be used to regulate the temperature of the storage furnaces.

Claims (1)

243783 S β PRE MET Electronic thermostat with non-returnable thermal fuse, equipped with an electrical temperature sensor, characterized in that the temperature sensing element (TSP) is connected to the other input (“VI”) of the first operational amplifier (OZ1) and to the second input (+ V2) of the second operational amplifier (OZ2) and to the inverter (R) to the reference voltage source (Ur), the second terminal of the temperature sensor element (TSP) is connected to the neutral, second input ( + V1) of the first operational amplifier (OZ1) is connected to the first reference voltage source (Url) and a second reference voltage source (Ur2) is connected to the first input amplifier (22) of the INVENTION (OZ2) ) of the first operational amplifier (OZ1) is a connected switching element (SPI) which is connected via an electromechanical switching element winding (ESP) and a series of protective resistor (Ro) and fuse (Po) combination ( Un) power sources, and the output (U2) of the second operational amplifier (OZ2) is connected to the second switching element (SP2), which is connected to the common winding point of the e-lectromechanical switching element (ESP) and the serial combination of the protective resistor (Ro) and the fuse (Po) . 1 sheet of drawings