SU810271A1 - Method of automatic control of discharging magnetite from deslimer - Google Patents

Description

The invention relates to the enrichment of magnetite ores and can be used to automate the process of oslamovanie ores in ore processing plants.

A known method for automatically controlling the speed of unloading of magnetite from a deslamator, based on a change in the passage of a sand hole in the discharge neck of a deslamator using a device for controlling the size of a sand hole (for example, using a pinch device and a rubber hose) depending on a change in the level of magnetite in the deslamator [1] .

The known method has the disadvantage that the control of the discharge speed and the dependence on the change in the level of magnetite in the deslamator leads to fluctuations in the density of magnetite in the discharge of the deslamator in the range from 1.1 to 2.2 kg! L. Such density fluctuations increase the loss of magnetite in the tails of the subsequent stage of magnetic separation, and hence the total loss of magnetite in the discharge of the deslamator and the tails of magnetic separation.

There is also known a method for automatically controlling the discharge of magnetite from a deslamator, based on a change in the flow area of the sand hole of the de-slamator by the level of magnetite in the working volume of the deslamator [2].

The purpose of the invention is to improve the accuracy of regulation by stabilizing the density of the discharged magnetite.

The goal is achieved by the fact that the density of magnetite is additionally measured in the discharge neck of the deslamator and, if the density is greater than the specified value, the change in the passage section of the sand hole of the deslamator is adjusted upward, and if the density is less than the specified value, it is reduced.

The drawing shows a functional diagram of the device.

The device includes a bowl of a deslamator 1, a magnetizing apparatus 2, a rake 3, a rubber hose 4, a level measuring device 5 with a float 6, a regulating device 7, an actuator 8, a sand hole size control device 9 (pinch device), an inductor 10, a bridge measuring a circuit 11, a density adjuster 12 of a magnetite discharged from a deslamer, a correction integral regulator 13, a threshold circuit 14 of an upper acceptable level, a threshold circuit 45 of a lower acceptable level; relay 16 upper permissible

Moy level relay 17 lower permissible level.

The device operates as follows.

When the magnetite level in the deslamator is within the permissible range of changes, the magnetite density required for magnetic separators in the discharge of the deslamator is stabilized.

If the magnetite level is outside the permissible range of change, then the magnetite level in the deslamator is automatically controlled.

The control of the magnetite level in the deslamator and the stabilization of the magnetite density required for magnetic separators in the unloading of the deslamator is carried out by changing the rate of unloading of magnetite from the deslamator using a pinch device 9, which changes the passage section of the rubber hose 4.

The magnetite density required for magnetic separators in the unloading of the deslimator is determined experimentally from the condition of ensuring permissible losses of magnetite in the magnetic separation tails.

The permissible range of changes in the level of magnetite in the deslamator is in the range from the upper permissible to the lower permissible values of the magnetite level.

The value of the upper permissible level of magnetite in the deslamer is also determined experimentally from the condition of ensuring acceptable losses of magnetite in the discharge of the deslamator, and the value of the lower permissible level is determined from the condition of ensuring the necessary minimum removal of sludge into the drain of the deslamator.

When stabilizing the magnetite density required for magnetic separators, the proportional density signal is fed through the bridge measuring circuit 11 from the inductor 10 to the input of the regulating device 7 (for example, a proportional-integral controller, where it is subtracted from the signal from the setter 12).

If the difference between the magnetite density signals and the reference is different from zero, the signal from the output of the regulating device 7 is fed to the input of the actuator 8 (for example, a uniform electric actuator of the IEC-10K type), which acts on the pinch device 9, which changes the cross section of the rubber hose until until the density of magnetite in the discharge of the deslimator reaches the desired value.

A signal proportional to the magnitude of the magnetite level in the deslamer is fed to the input of threshold circuits 14 and 15 from the output of device 5 (for example, an angle converter of the IUF-2 type coupled with a float), which is affected by the float 6.

When the value of the magnetite level signal in the deslameter exceeds the upper permissible value, the signal from the output of the threshold circuit 14 is fed to the coil of the relay 16, providing the inclusion of its n. about. contacts and applying a constant voltage level to the input of the correction integral controller 13; which changes the reference signal at the input of the regulating device 7 until the level of magnetite in the deslamator reaches an acceptable range of variation. In this case, a new value is set for the required density of discharge of magnetite from the deslamator.

If the magnetite level is less than the lower permissible value, then the signal from the output of the threshold circuit 15 is fed to the coil of the relay 17, providing the inclusion of its N. about. contacts and applying a constant voltage level to the input of the correction integral controller 13, which changes the reference signal at the input of the control device 7 until the magnetite level in the discharge of the deslimator reaches an acceptable range of variation.

The invention will allow to ensure, in the range of permissible values of the level of magnetite, the required value of the density of magnetite in the discharge of the deslimator and to reduce the total loss of magnetite in the discharge of the deslamator and the tails of the subsequent stage of magnetic separation.

Claims (2)

my level, relay 17 permissible level. The device works as follows. At the magnetite level in the declarator, which is within the allowable range of variation, the magnetite density required for the magnetic separator is stabilized in the discharge separator. If the level of magnetite is outside the allowable range of scattering, then the level of magnetite in the deschlamator is automatically controlled. The magnetite level in the separator is stabilized and the magnetite density required for magnetic separators in the unclamping device is stabilized by changing the magnetite unloading rate from the separator using a clamped device 9, which changes the cross section of the rubber hose 4. The magnetite density required in the magnetic separators in the unloading of the separator for magnetic separator It is experimentally from the condition of ensuring the permissible loss of magnetite in the tails of magnetic separation. The permissible range of magnetite level changes in a declarator is in the range from the upper permissible to the lower permissible values of the magnetite level. The value of the upper permissible level of magnetite in the advertiser is also determined experimentally from the condition of ensuring the permissible loss of magnetite to the drain of the advertiser, and the value of the lower permissible level is determined from the condition of providing the necessary minimum removal of sludge to the drainage of the advertiser. When the magnetite nlotnostpp required for magnetic separators is stabilized, the signal proportional to the density goes through the bridge measuring circuit from the inductor 10 to the input of the regulating device 7 (for example, the proportional-integral controller, where it is subtracted from the unit 11 signal). In the case of difference between the signals of magnetite density and the task from zero, the signal from the output of the regulating device 7 is fed to the input of an additional mechanism 8 (for example, a monotonous electric actuator of the IEC-UK type), which acts on the pinch device 9, which changes the cross section of the rubber hose until the magnetite density in the unloading of the advertiser reaches the desired value. The signal is proportional to the magnetite level in the declarator, and is fed to the input of threshold circuits 14 and 15 from the output of the device 5 (for example, an IUF-2 angle-angle converter coupled to the float), which is affected by the float 6. The magnetite level signal in the advertiser exceeding the upper permissible value, the signal from the output of the threshold circuit 14 is fed to the coil of the relay 16, which ensures the inclusion of its and about. contacts and the supply of a constant voltage level to the input of the corrective integrated regulator 13; which changes the reference signal at the input of the regulator 7 until the magnetite level in the declarator reaches the allowable range of variation. This establishes a new value for the desired magnetite discharge density from the declarer. In case the magnetite level is less than the lower permissible value, then the sigal from the output of the threshold circuit 15 is fed to the coil of the relay 17, which ensures the switching on of its own. about. contacts and supplying a constant voltage level to the input of a correction integral controller J3, which changes the reference signal at the input of the regulator 7 until the magnetite level in the unclamper unload reaches the acceptable range of variation. The invention will ensure that in the range of permissible values of the magnetite level the required magnetite density value in the unloading of the declarator and reduce the total loss of magnetite in the discharge of the separator and tails of the subsequent magnetic separation stage. The invention The method of automatically controlling the unloading of magnetite from a separator based on changing the flow area of the sand hole of the advertiser according to the magnetite level in the working volume of the separator, characterized in that, in order to improve the control accuracy by stabilizing the density of the discharged magnetite, the density of the magnetite in the discharge neck is additionally measured the drifter and when the density value is greater than the specified one, the change in the flow cross section of the sand hole is corrected; and upwards, and if the density value is less than the specified one, downwards. Sources of information taken into account in the examination: 1.Goncharov Yu. G. and others. Automatic control and regulation of technological processes. M., “Nedra, 1968, p. 36 2. The patent of Germany No. 1226951, cl. 1 a, pub. 1966 (prototype). C / iuS