RU75068U1 - DEVICE FOR CONTROL OF RESISTANCE ELECTRIC FURNACE TEMPERATURE (OPTIONS) - Google Patents

Abstract

1. A device for controlling the temperature of an electric resistance furnace, comprising a voltage regulator, a temperature sensor and a regulating device including an integral link, a differential link, an amplifying link, a summing device, the inputs of which are connected to the output of the integral, differential and amplifying links, respectively, and a comparison element , the summing input of which is connected with the temperature setter, and the subtracting input with the output of the temperature sensor, characterized in that the first block is multiplied ia, a second multiplication block, a third multiplication block, as well as a first functional block, a second functional block and a third functional block, which correct the values of the parameters of the amplifying, integral and differential links as a function of temperature, connected by their inputs to the output of the temperature setter, and the output of the first functional block connected to the input of the first block of multiplication connected by its second input to the output of the comparison element and the second inputs of the second and third blocks of multiplication, while the input of the first multiplication unit is connected via an amplifying link to the first input of the adder, the output of the second functional unit is connected to the input of the second multiplication unit connected by its second input to the output of the comparison element, while the output of the second multiplication unit is connected via an integral link to the second input of the adder, and the output of the third the functional block is connected to the input of the third multiplication block, connected by its second input to the output of the comparison element, while the output of the third multiplication block is connected through the differential

Description

The proposed solution relates to the field of electrothermics, in particular to devices for controlling the temperature of a resistance electric furnace.

A device for regulating the temperature of an electric resistance furnace ("Electrical equipment and automation of electrothermal installations". Handbook. - M .: Energy, 1978, p. 304), comprising a temperature adjuster, a voltage regulator, a temperature sensor and a regulating device including an amplifying link, an integral link and a differential link, the summing device, the inputs of which are connected to the output of the integral, differential and amplifying links, and a comparison element, the summing input of which is connected with the rear Chick temperature, and subtracting the input from the temperature sensor output. This device has the following disadvantages: during the operation of the system consisting of this controller, voltage regulator, temperature sensor and electric furnace, the changing physical parameters of the lining are not taken into account, which leads to a “run-out” of temperature when switching to work with a new set point (task) when implementing a complex heat treatment process.

The technical problem solved by the proposed device is to increase the accuracy of regulation by reducing the deviation of the controlled temperature of the furnace from the set value.

The problem is solved in that the known device used to control the temperature of an electric resistance furnace, comprising a temperature adjuster, a voltage regulator, a temperature sensor and a regulating device including an amplifying link, an integral link and a differential link,

a summing device, the inputs of which are connected to the output of the integral, differential and amplifying links, and a comparison element, the summing input of which is connected to the temperature setter, and the subtracting input with the output of the temperature sensor, according to the utility model, is additionally equipped with a first multiplication unit, a second multiplication unit, and a third multiplication unit, as well as the first functional unit, the second functional unit and the third functional unit, correcting the values of the parameters of the amplifying, integral and differential links as a function of temperature, wherein the output of the first functional block is connected to the input of the first multiplication unit, connected by its second input to the output of the comparison element and the second inputs of the second and third multiplication units, while the output of the first multiplication unit is connected through an amplifier link to the first input of the adder, the output of the second functional unit is connected to the input of the second multiplication unit connected by its second input to the output of the comparison element, while the output of the second multiplication unit is connected is connected through the integral link with the second input of the adder, the output of the third functional block is connected to the input of the third multiplication unit connected by its second input to the output of the comparison element, while the output of the third multiplication unit is connected through the differential link to the third input of the adder.

According to the second embodiment, a known device for controlling the temperature of a resistance electric furnace, comprising a voltage regulator, a temperature sensor and a regulating device including an integral link, a differential link, an amplifying link, an adder, the inputs of which are connected to the output of the integral, differential and amplifying links, respectively, and comparison element whose summing input is connected

with a temperature setter, and the subtracting input with the output of the temperature sensor, according to the utility model, is equipped with a first multiplication unit, a second multiplication unit, a third multiplication unit, as well as a first functional unit, a second functional unit and a third functional unit, which correct the values of the amplifying, integral and differential links as a function of temperature, connected by their inputs to the output of the temperature sensor, and the output of the first functional block is connected to the input of the first block a knife, connected by its second input to the output of the comparison element and the second inputs of the second and third blocks of multiplication, while the input of the first block of multiplication is connected through an amplifying link to the first input of the adder, the output of the second functional block is connected to the input of the second block of multiplication connected by its second input to the output of the comparison element, while the output of the second multiplication block is connected via an integral link to the second input of the adder, and the output of the third functional block is connected to the input of the third block multiplication connected by its second input to the output of the comparison element, while the output of the third multiplication unit is connected through a differential link to the third input of the adder.

The figures show variants of structural diagrams of a device for controlling the temperature of an electric resistance furnace: option 1 in figure 1 and option 2 in figure 2.

A device for controlling the temperature of an electric resistance furnace contains a series-connected temperature setter 2, a voltage regulator 3, a temperature sensor 4, and a regulating device 5, which includes an integral link 7, a differential link 8, an amplifying link 6, an adder 9, whose inputs are connected to the output of the integral 7, differential 8 and amplifying 6 links, respectively, and

a comparison element 10, the summing input of which is connected with the temperature setter 2, and the subtracting input with the output of the temperature sensor 4, as well as the first multiplication unit 11, the second multiplication unit 12, the third multiplication unit 13, as well as the first functional unit 14, the second functional unit 15 and the third functional block 16, the correcting values of the parameters of the amplifying 6, integral 7 and differential 8 links as a function of temperature, connected by their inputs to the output of the temperature setter 2, and the output of the first functional block 14 is connected inen with the input of the first block of multiplication 11, connected by its second input to the output of the comparison element 10 and the second inputs of the second 12 and third 13 blocks of multiplication, while the input of the first block of multiplication 11 is connected through an amplifying link 6 with the first input of the adder 9, the output of the second functional block 15 is connected to the input of the second multiplication block 12, connected by its second input to the output of the comparison element 10, while the output of the second multiplication block 12 is connected via an integral link 7 to the second input of the adder 9, and the output of the third function The base unit 16 is connected to the input of the third multiplication unit 13, connected by its second input to the output of the comparison element 10, while the output of the third multiplication unit 13 is connected through the differential link 8 to the third input of the adder 9.

According to a second embodiment, the device for controlling the temperature of the resistance electric furnace comprises a temperature setter 2, a voltage regulator 3, a temperature sensor 4 and a regulating device 5 connected in series, including an integral link 7, a differential link 8, an amplification link 6, a summing device 9, the inputs of which are connected with the output of integral 7, differential 8 and amplifying 6 links, respectively, and a comparison element 10, the summing input of which is connected to temperature setpoint 2, and I subtract general entrance with exit

temperature sensor 4, as well as the first block of multiplication 11, the second block of multiplication 12, the third block of multiplication 13, as well as the first function block 14, the second function block 15 and the third function block 16, the correction values of the parameters of amplifier 6, integral 7 and differential 8 links as a function of temperature, connected by its inputs to the output of the temperature sensor 4, and the output of the first functional unit 14 is connected to the input of the first multiplication unit 11, connected by its second input to the output of the comparison element 10 and second the inputs of the second 12 and third 13 multiplication blocks, while the input of the first multiplication block 11 is connected through an amplifying link 6 to the first input of the adder 9, the output of the second functional block 15 is connected to the input of the second multiplication block 12, connected by its second input to the output of the comparison element 10 wherein the output of the second multiplication block 12 is connected via an integral link 7 to the second input of the adder 9, and the output of the third functional block 16 is connected to the input of the third multiplication block 13, connected by its second input to the output of the element There is a comparison factor 10, while the output of the third multiplication block 13 is connected through a differential link 8 with the third input of the adder 9.

A device for controlling the temperature of an electric resistance furnace operates as follows.

The input of the comparison element 10 receives signals from the temperature setter 2 and from the temperature sensor 4, which are subtracted. The obtained value (mismatch signal) is fed to the inputs of the multiplication blocks 11, 12, 13, and then to the input of amplifier 6, integral 7 and differential 8 links. The signals from the amplifying 6, integral 7 and differential links are fed to the input of the summing device 9, which supplies the final signal from the links to the voltage regulator 3. Voltage regulator 3 gives a control action on the control object - resistance electric furnace.

Function blocks 14, 15, 16 receive signals either from the temperature setter 2, or from the temperature sensor 4. In accordance with the received value, each block sends a signal to the corresponding multiplication block - 11, 12, 13, through which the signal obtained by multiplying the incoming signals from comparison element 10 and functional blocks, is supplied to amplifying 6, integral 7 and differential 8 links.

Claims (2)

1. A device for controlling the temperature of an electric resistance furnace, comprising a voltage regulator, a temperature sensor and a regulating device including an integral link, a differential link, an amplifying link, a summing device, the inputs of which are connected to the output of the integral, differential and amplifying links, respectively, and a comparison element , the summing input of which is connected with the temperature setter, and the subtracting input with the output of the temperature sensor, characterized in that the first block is multiplied ia, a second multiplication block, a third multiplication block, as well as a first functional block, a second functional block and a third functional block, which correct the values of the parameters of the amplifying, integral and differential links as a function of temperature, connected by their inputs to the output of the temperature setter, and the output of the first functional block connected to the input of the first block of multiplication connected by its second input to the output of the comparison element and the second inputs of the second and third blocks of multiplication, while the input of the first multiplication unit is connected via an amplifying link to the first input of the adder, the output of the second functional unit is connected to the input of the second multiplication unit connected by its second input to the output of the comparison element, while the output of the second multiplication unit is connected via an integral link to the second input of the adder, and the output of the third the functional block is connected to the input of the third multiplication block, connected by its second input to the output of the comparison element, while the output of the third multiplication block is connected through the differential link with the third input of the adder. 2. A device for controlling the temperature of an electric resistance furnace, comprising a voltage regulator, a temperature sensor and a regulating device including an integral link, a differential link, an amplifying link, an adder, the inputs of which are connected to the output of the integral, differential and amplifying links, respectively, and a comparison element , the summing input of which is connected with the temperature setter, and the subtracting input with the output of the temperature sensor, characterized in that the first block is multiplied ia, a second multiplication block, a third multiplication block, as well as a first functional block, a second functional block and a third functional block, correcting the values of the parameters of the amplifying, integral and differential links as a function of temperature, connected by their inputs to the output of the temperature sensor, the output of the first functional block connected to the input of the first multiplication block, connected by its second input to the output of the comparison element and the second inputs of the second and third multiplication blocks, while the input of the first of the second multiplication unit is connected via an amplifying link to the first input of the adder, the output of the second functional unit is connected to the input of the second multiplication unit connected by its second input to the output of the comparison element, while the output of the second multiplication unit is connected through the integral link to the second input of the adder, and the output of the third the functional block is connected to the input of the third multiplication block, connected by its second input to the output of the comparison element, while the output of the third multiplication block is connected via differential th link with the third adder input.