SU1401050A1 - Device for automatic stabilization of blasting duty in blast furnace - Google Patents

Abstract

The invention relates to ferrous metallurgy, in particular to the air supply of blast furnaces, and is intended to automatically stabilize the blast mode of the blast furnace. The purpose of the invention is to increase the productivity of blast-furnace smelting by preventing blow-off violations. The device includes a constant gas pressure regulator on the top, a compressor 1, an air duct 3, flow stabilization and pressure blowing blocks, each of which contains sensors 8, 9, converters 10, 11, setting devices 6, 7 and regulators 4, 5. Device also contains the maximum signal selection element 14, the inputs of which are connected to the outputs of the pressure regulator 4 and the amplifier 13, the minimum signal selection element 15, the inputs of which are connected to the outputs of the flow controller 5 and the maximum signal selection element 14, the output amplifier 16, n whose input is connected to the output member 15 for selecting the minimum of the signal associated with the actuator 17 Sheha regulating body 18. When reducing the resistance of the charge and the displacement mode of the compressor from the maximum flow signal to the output controller 5 becomes smaller than the signal from the regulator 4; At the exit ;; element 15 passes the signal from the control knob 5, and the latter maintains a constant flow rate set by the setpoint adjuster 7. When the charge resistance increases, the signal from regulator 4 is smaller than the signal from amplifier 13. Then regulator 18 moves in proportion to the increase in flow rate to blow. 2 Il. (ABOUT

Description

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This invention relates to ferrous metallurgy, in particular to the air supply of blast furnaces.

The purpose of the invention is to increase the productivity of the blast furnace by preventing blow-up violations.

FIG. 1 shows a block diagram of a device for stabilizing a blast furnace blowing mode; in fig. 2 --- modes of operation of the compressor with a stabilization device blowing mode.

In the device for automatic stabilization of the blast-furnace blast-mode (Fig. 1), the source is blown by compressor 1, having as a drive, for example, an electric motor 2, and a feed

The signal from the output of the flow regulator 5 and the signal from the output of the maximum signal selection element 14, which is the signal from the pressure regulator output, are fed to the inputs of the minimum signal selection element 15. A smaller signal from the output of the pressure regulator passes to the output of this element and then goes to the output amplifier 16. The signal from the output of the latter goes to the executive 10 mechanism 17, which moves the regulator 18 to a position proportional to the value of this signal. Thus, over the entire range of operating flow rates, the pressure regulator 4 controls the regulator 18 and maintains

blowing through the air duct 3 into the domain set by the setting device 6 pressure to blow.

the furnace, having a constant pressure regulator, with a decrease in resistance,

caused by stoppage of the furnace, for example, a channel stroke, and displacement of the compressor mode to the maximum operating knowledge at the furnace top (not shown). The required blow mode is supported by the pressure regulator 4 or the flow regulator 5 (mass capacity) from its own -20 flow rate, the output signal by the regulators of the setting units 6 and 7, the flow sensor 8l of the flowmeter 5 becomes less than the pressure, the flow sensor 9 and the transducer pressure at the outlet of the pressure regulator 4,

0 and 11, respectively. Output When the output of element 15 passes

converter 0 of signal from pressure sensor signal from output of flow controller 5,

It is connected to the inputs of the regulator 4 and the latter maintains a constant control and setpoint 12 connected to 25 given flow control unit 7 flow blow by amplifier 13. The outputs of the pressure control regulator 4 are 4, while increasing the resistance shi.hty

The amplifier 13 is connected at the input called, for example, by hanging and selecting the maximum signal element 14, by compressing the compressor to the minimum output of the latter, and by the output of the control knob 5 of the flow rate, the signal to the flow is connected to the inputs of the downstream control of pressure regulator 4

15 for selecting the minimum signal, the output which is 30 is less than the signal at the output of the amplifier 13. Highly connected to the amplifier 16 and the actuator 17 of the regulator 18, for example, turning guide vanes.

The pressure regulator 4, which receives a signal proportional to the pressure to blow with the converter 10, maintains the blowing mode during the normal course of the furnace in accordance with the task coming from the setter 6. The signal from the converter 10 also goes to the setpoint 12 and then - 40

The regulator 18 then moves in proportion to the increase in pressure to blow. The amplifier 13 is adjusted in such a way that the operation mode of the compressor does not fall into the zone of unstable modes.

After the restoration of the furnace normal operation, in all cases the pressure regulator signal is automatically selected.

During compressor operation, under the command of a pressure regulator at a given XR pressure (Fig. 2), the optimal furnace mode (point A) corresponds to the flow rate GJ, and when the characteristics of the discharge path change (lines aa, v-v, s-s, dd )

amplifier 13, which is configured so that the signal at the amplifier output at a given pressure, which is supported by regulator 4, is equal to the minimum operating value of the flow rate.

The signals from the outputs of the pressure regulator 4 change the flow rate to blow, and the amplifier 13 is fed to the inputs of the maximum signal selection element 14. Since, at the operating value of the flow rate, the signal at the regulator output is always larger than the signal at the amplifier output.

When reducing the resistance and increasing the flow rate up to the maximum operating value GB, corresponding to the distribution disturbance, the output signal of the element 14 passes the charge signal, 50 for example, at the channel host output of the pressure regulator. At the same time, the flow regulator 5 receives a signal from the converter 11, which is proportional to the flow rate, and a signal from the setting device 7, which is set so that the signal from

55

At the point B, the flow controller comes into operation and the compressor mode is shifted along the constant flow line, for example, at point B. After restoring the normal operation of the furnace, the autonomy was equal to the maximum operating flow rate regulator. Therefore, the signal at the output of the flow regulator is larger than the signal at the output of the pressure regulator.

laziness.

In case of malfunction of the furnace, accompanied by an increase in resistance

The signal from the output of the flow regulator 5 and the signal from the output of the maximum signal selection element 14, which is the signal from the pressure regulator output, are fed to the inputs of the minimum signal selection element 15. The output of this element passes a smaller signal from the output of the pressure regulator and then goes to the output amplifier 16. The signal from the output of the latter goes to the actuator 17, which moves the regulator 18 to a position proportional to the magnitude of this signal. Thus, over the entire range of operating flow rates, the pressure regulator 4 controls the regulator 18 and maintains

pressure set by the setting device 6 to blow.

pressor to the maximum operating flow rate, the signal at the output of the flow controller 5 becomes less than the signal below the output of the amplifier 13.

The regulator 18 then moves in proportion to the increase in pressure to blow. The amplifier 13 is adjusted so that the operation mode of the compressor does not fall into the zone of unstable modes.

After the restoration of the furnace normal operation, in all cases the pressure regulator signal is automatically selected.

During compressor operation, under the command of a pressure regulator at a given XR pressure (Fig. 2), the optimal furnace mode (point A) corresponds to the flow rate GJ, and when the characteristics of the discharge path change (lines aa, v-v, s-s, dd )

the flow rate is blowing,

the flow rate is blowing,

When reducing the resistance and increasing the flow rate up to the maximum operating value GB, corresponding to the distribution violation, blow over the charge section, for example, with channel

At the point B, the flow controller comes into operation and the compressor mode is shifted along the constant flow line, for example, at point B. After the furnace has returned to normal operation, the pressure controller automatically comes into operation.

In case of malfunction of the furnace, accompanied by an increase in resistance

an increase in melting performance is achieved.

Claims (1)

Invention Formula and a decrease in the flow rate to the minimum operating value of the GC corresponding to the charging of the charge, at point C, is controlled, it is given to the control, proportional to the amount of pressure to blow. The device for automatic stabilization of the Amplifier is advisable to adjust the blast furnace blast mode so that when the resistance increases, the track-on regulator of the gas pressure on the supercharger cat (line dd) doesn’t have a compressor, air duct, afterpressor. uncontrollably connected sensor, transducer modes (point D) and not approx. 10 pressure regulator and blow with clamped to the surging boundary (line ee). sensor connected in series dat- , The converter controller chi flow again automatically comes into blow-Started with the setting device, the first amplifier, the pressure regulator which is connected to the actuating Yield The limiting values of the productive mechanism of the regulatory authority to comprehend, at which the regulator is to be switched, are set depending on the mode of operation of a particular blast furnace and are determined experimentally. Amplifier gain. The litter is characterized in that, in order to increase the productivity of the blast furnace by preventing disturbances in the blast mode, it is equipped with a second amplifier, an input signal adjuster, an element controlling the selection of the maximum signal to the inputs, to the inputs of the minimum-value organ that the outputs of the flow rate scientific research institute are connected, is determined depending on the output of the second amplifier, and the element of the actual characteristics of the compressor and the minimum signal-selector regulator outputs are connected. A device for automatic stabilization of the flow rate and a selection element for the maximum blow mode of a blast furnace of an auxiliary signal; quick rectification The selection of the minimum signal is connected to the first amplifier, the input signal adjuster is connected to the pressure sensor through the converter with a pressure sensor, and the output to the second amplifier. furnace, prevents the compressor from falling into a surge and ensures that the preset mode is maintained to blow in accordance with the condition of the blast furnace than an increase in melting performance is achieved. Invention Formula  the compressor regulating mechanism, characterized in that, in order to increase the productivity of the blast furnace by preventing disruptions in the blast mode, it is equipped with a second amplifier, an input signal generator, an element selection of the maximum signal, to the inputs of which the outputs of the pressure regulator and the second amplifier are connected, and the selection element of the minimum signal, to the inputs of which are connected the outputs of the flow controller and the selection element of the maximum signal; The selection of the minimum signal is connected to the first amplifier, the input signal adjuster is connected to the pressure sensor through the converter with a pressure sensor, and the output to the second amplifier.