SU556569A1 - Apparatus for determining the stages of melting of a charge in an electric arc furnace - Google Patents

Description

melting wells, a device comparing the speed with the task, as well as the device comparing the lowest position of the electrode with the task: the end of the stage of the formation of a liquid bath is not limited but the consumption of electricity since the beginning of the stage.

In order to determine my.1 eite, the end of the closed arc stage of an ind} eTC signal and the arc of the arc. b the counter counts the number of oros amplitudes of the in- dense above a certain level and is compared with the given one.

If the number of outgrowths is below a certain level and there is no prohibition on the position of the electrode, then a signal is generated for the onset of a non-arc of open arcs.

When using the known device for determining the end of the hole melting stage, sushi, natural errors are possible. 1ak, the use of the boundary value of the electrode position, the attainment of which permits the shaping of the end-of-stage signal, leads to the fact that, firstly, when a liquid bath is formed until the boundary value is reached, the end-of-period signal is not formed and, after the electrode has passed the limit value possible errors due to the possibility of charge collapses: the signal of the lowest position of the electrode does not change its value, i.e. a signal of formation of a liquid bath is formed, but the liquid bath is not is called.

In addition, the presence in the system of a device operating on a statistical signal — the number of rolls of the impedance amplitude — and requiring it, a certain averaging time predetermines the delay of the system in determining the end of the closed arc stage.

The purpose of the invention is to improve the accuracy of determining the stages of melting of the charge and the associated increase in furnace productivity.

This is achieved by the fact that the proposed device is equipped with a unit for generating signals of intermixing the electrode, the output of which is connected to the inputs of the measuring units for mixing the electrode up and down, the output for the unit for measuring the intermixing, electrode upwards is connected to the unit for comparing the mixing, electrodes upwards with the task which is connected to one of the inputs of the first logical element AND connected to another input to the output of the unit for measuring the speed of the melting of the well, and the output of the element AND is intended to be connected to the system output device signals, the electrode downmix measurement unit with a second input is connected to a time sensor, and the output is connected to a reference unit for mixing up and down the electrode with a reference, the output of which is connected to one of the inputs of the second logic element AND connected to the other input unit the intermediate and lowest positions of the electrode, and the output of the second element And is designed to connect the output signals of the device to the system.

The drawing shows a block diagram of the proposed device.

Device Contains signal for generating intermediate and lowest position 1, comparing the lowest electrode position with setting z, definition of well penetration speed 6, Olok comparing signals for intermediate and lower positions of the electrode 4, power consumption sensor 5, Olox of generating signals for imitation, electrode , the measuring unit for measuring the displacement, electrode upwards 7, the comparing unit for moving the electrode upwards with the task a, the first logic element I V, connected to the unit for determining the speed for melting the well and the unit for comparing the electrode displacements upwards with the task, the unit for measuring the movements of the electrode down 1U, the time sensor 11 connected to the input of the unit for measuring the movements of the electrode downward, the unit comparing the magnitude of the movements of the electrode down for task 12, the second logic element 1: 3 connected with the unit for comparing the signals of the intermediate and lowest positions of the electrode, and with the unit for comparing the magnitude of the downward movement of the electrode with the task.

The unit for generating the signals of the movements of the electrode 6 is a digital sensor for spatial movement (on the motor shaft of the electrode 1, a disk with holes and a reader) ji pulse generator. Unlike signal generation unit 1, which provides information about the current position of the electrode, unit 6 generates a signal proportional to the change in the position of the electrode, i.e., the displacement of the electrode in this case.

The unit for measuring the displacement of the electrode upwards is made in the form of a pulsed binary reversible counter with input logic, which ensures the counter to operate when the electrode is moved upwards and when the typed value is written off to zero (i.e., during the development of landslides).

The down electrode displacement measurement unit 10 is a reversible counter, but with input logic, which ensures the counter to operate when the electrode is moved down and when the typed value is written off to zero.

In addition, the counter is reset to zero at predetermined time intervals.

The device works as follows.

Claims (2)

The signal generation unit of the intermediate and lowest positions of the electrode 1 generates signals a and e on the position of the electrode. At the same time, the signal of the lowest position in is formed in proportion to the smallest position of the electrode position over the entire melting interval up to this moment. The signal generation unit of the electrode displacement b generates a di (p (reresional signal from the displacement of an JJ J, a). The first melting stage — the arc firing stage — ends when the electrode passes a predetermined distance, starting from the moment of arc firing. To determine the end of the stage, the signal t is compared with By setting the comparison in the option one 2. When the specified value is reached, a signal d of the end of the arc ignition stage is formed. The end of the next stage — the stage of melting the well — is characterized by slowing down the speed The electrode is determined by the unit for determining the speed of melting of the well 3 but slowing down the electrode movement downwards. The signal of the unit 3 to determine the end of this stage (signal e) if there are no ovuals. For fixing the ovals the unit 7 is used, which receives signals from the electrodes moving from the unit b. The presence in the counter of any number corresponding to the upward movement of the electrode indicates the occurrence of charge falls. The signal of block 7 is compared with the signal of the task in the block of comparison 8, and if the signal of the meter is greater than signal of the task, then it is forbidden through the first logic element AND the passage of the end of stage signal. If there is no prohibition, then by decreasing the speed of the electrode movement, the block 3 generates a signal for the end of the well penetration stage. The end of the next stage - the stage of the beginning of the formation of a liquid bath (signal /) - is determined by the sensor of the consumption of active energy 5 when a specified amount of electricity is consumed. To determine the end of the closed-arc stage, the position signals of the electrode and the signal of the lowest position of the electrode are compared. When the difference between them reaches a predetermined value corresponding to the rise of the electrode to the level of a stable liquid bath, an end-of-stage signal is generated that arrives at the second logic element 13. At a general rise of the liquid bath, moving the electrode down characterizes the processes associated with falling debris. The down electrode displacement measurement unit 10, which is a binary reversible counter with input logic, detects the displacement of the electrode downwards. The meter is reset to zero at regular intervals. Discharge pulses are formed by time sensor 11. So far. ,. the number dialed in the counter for a given time interval characterizes the oval. It is compared with the reference in the comparison iz, and if it is set, then the second logic element AND i6 is prevented from passing the end-of-stage signal, if less than or equal to, the end-of-stage signal g is allowed. The machine allows more efficient energy input to the furnace, which speeds up the melting time by b-10 min. Claims An apparatus for determining the stages of melting of a charge in an electric steel arc furnace, comprising an electrical energy consumption sensor, the output of which is intended to be connected to the system of outputting the device’s Output signals, and the signal for generating an intermediate and lowest position; the electrode, one of the outputs of which generates a signal-low electrode position, is connected to the inputs of the comparison block of the signal of the lowest position of the electrode with the task, the measuring unit speed I TH of the well penetration and the comparison block of signals of the intermediate and lowest electrode position, the second output generating the intermediate position signal of the electrode , is connected to the specified unit of comparison of the intermediate and lowermost positions of the electrode, and the output of the unit of comparison of the lowest electrode position to the task m is intended For connection to the device output testing system, characterized in that, in order to improve the accuracy of determining the stages of charge charging, it is equipped with an electrode displacement signal generating unit, the output of which is connected to the block inputs from measuring the electrode displacements Electrode up is connected to block.m. Comparison of electrode displacements upward with a reference, which is connected to one of the inputs of the first logic element I, connected by another input to the output of the block and measuring the speed of penetration of the well, and the output of the element I is intended to be connected to the system for working out the output signals of the device, the measuring unit for moving the electrode moves down by the second input is connected to a time sensor, and the output to the unit comparing the moving electrode downward with a reference, the output of which is connected to one of the inputs the second logic element And connected by another input with the unit for comparing the signals of the intermediate and the lowest nozhelepy electrode, and the output of the second element And is designed to be connected to the system about rabotki device output signals. , P1 stochpik information, taken into account during the examination: Patent CUIA No. 3435121, cl. 13-13, 1969. 2. US patent. №-3588306, cl. 13-13, 1971. d