SU838289A1 - Apparatus for automatic control of raw mixture firing process in rotary furnace - Google Patents

Description

physicochemical characteristics and converters; the physicochemical characteristics sensors are connected via appropriate converters to the corresponding inputs of the adder, the output of which is connected to another input of the correction regulator.

The drawing shows the device.

It contains a furnace 1, a torque sensor 2 of the drive motor of the furnace, a fuel consumption regulator 3 with the fuel consumption control body 4, a sensor 5 of an average size of a piece of material at the furnace output, an adjustment regulator b, a sensor 7 for determining the raw material saturation ratio (KH) mix, sensor 8 silicate module (p) raw mix, sensor 9 alumina module (p) raw mix, sensor 10 pole fineness (j °) raw mix, functional converters 11,12,13 and 14, adder 15. At a constant speed rotation of the furnace, the sensor 2 is rotating torque drive motor may be replaced by furnace power sensor, and at a constant voltage of the current sensor consumed by the drive motor of the furnace.

The device works as follows.

In the firing process, the physicochemical characteristics of the raw mix are determined using sensors 7-10, the signals from which are fed to the input of the corresponding functional converters 11-14, the outputs of which are summed in adder 15, the output of which corresponds to the required value of the average size of the pieces. If the signal from sensor 5 is less than the signal from the output of adder 15, then the correction regulator b acts on regulator 3 in such a way that it increases the fuel consumption with the help of control organ 4. This increases the intensity of firing, the signals from sensors 2 and 5 increase, and the increase in fuel consumption stops. If further changes in the chemical composition of the raw material occur, for example, the signal increases.

sensor 7 when the signals of sensors 8.9 and 10 remain unchanged, the signal at the output of converter 11 and adder 15 decreases. If the signal from sensor 15 becomes less than the signal of sensor 5, the correction regulator 6 acts on controller 3 in this way so that it can reduce fuel consumption by means of control organ 4. In this case, the intensity of burning is reduced, the signals from sensors 2 and 5 are reduced, and the reduction in fuel consumption is stopped.

Claims (2)

1. USSR author's certificate No. 361989, Cl1 C 04 B 7/44, 1971. 2. USSR author's certificate number 567061, cl. F 27 B 15/18, 1976.