SU936471A2 - Device for control of electric mode of electric arc furnace - Google Patents

Description

The invention relates to electrothermia.

According to the main author. St. No. 797085 is known a device for automatically controlling the electric mode of an arc electric transmission, comprising an electrode moving mechanism, current and voltage sensors, coincidence and delay elements, an electrode moving speed sensor and two negative elements, one of the negative elements being connected between the current sensor and the first input a matching element, the second input of which, through the second negation element, is connected to the electrode’s speed sensor, the third input, through the specified delay element, is connected to the sensor voltage, and an output - to an input mechanism moving electrode G11.

. - 20

A disadvantage of the known device is that due to the uneven speed of the electrode due to the development of hydraulic plungers, from the outset of the cuff, false alarms occur.

The purpose of the invention is to improve the quality of regulation by eliminating the possibility of false. Blocking of the electrode, as well as breaking it when it rests in a non-conductive charge, increasing the reliability of power transmission, reducing costs per ton of metal.

This goal is achieved by the fact that the device is equipped with a pressure sensor under the plunger of the hydraulic cylinder connected. through the third element of negation with an additional input of the element of coincidence and with the first input of the RS-trigger, the second input of which through the fourth element of negation is connected to the output of the electrode velocity sensor, and its output is connected to the input of the second element of negation.

In FIG. 1 shows a "block diagram of a device; in FIG. 2 - a register of transients of the electric * speed and pressure under the plunger with the electrode resting in a non-conductive charge.

The device contains a speed sensor for moving the electrode 1, a pressure sensor * under the plunger 2, a current sensor for the electrode 3, a phase voltage sensor 4, negation elements 5-8, IS trigger 9, a matching element 10, and an actuator for moving the electrode 11.

As can be seen from the register (Fig. 2), the change in pressure lags behind the change in the speed of the electrode.

The device operates as follows.

Let the electrode with the help of the movement mechanism move downward, while the speed of movement is not equal to zero V / -Q, the pressure under the plunger is not equal to zero. P / <E, and the voltage across the arc is also not equal to zero 11 / = 0, and the electrode current is zero 1 = 0. In this case, the output of the elements of negation 5, 6 and 7 will be logical zeros, the output of the element of negation 8 is a logical unit. Two logical ² zeros and two logical units arrive at the input of coincidence element 10, the logical zero will be at the output of the last,

When the electrode rests in a non-conductive 4 and <V threshold, then since the pressure does not reach the value P <P threshold, one logical zero and three logical units arrive at the input of the coincidence element, therefore, there will be a logical zero and electrode at its output will continue to move down.

If during lowering the electrodes to ignite the arc, the phase voltage of the electrode that first touched the conductive charge will be zero, and the input of coincidence element 10 from voltage sensor 4 receives a logical zero, the device will be disconnected from io15 of the additional mechanism, since the logical .zero.

Similarly, when the arc is ignited, the input of the coincidence element 10 from the current sensor 3 through the negative element 8 receives a logical zero and the device is disconnected from the actuator.

The proposed device for regulating the electric mode allows to eliminate the breakdown of the electrodes, save electricity, reduce downtime of the furnace, · increase productivity and technical and economic indicators of the electrothermal charge initially reduces the speed of the electrode. The speed sensor is configured in such a way that the “condition V <U threshold” is fulfilled, and therefore, at the output of the negation elements 5 and 7 we will have a logical unit, at the output of the negation element 6 we will have a logical zero. Logical zero and three logical units arrive at the input of coincidence element 10, therefore, logical zero will decrease at the output of it.

When pressure P <P is reached, threshold 40 at the output of the negation element 6 will display a logical unit, and 'investigator * · but, four logical units will be input to the coincidence element, and a logical unit signal will be output. 45 This signal, acting on the actuator, will block the hydraulic line and block the movement of the electrode.

If during lowering of the electrode 50, as a result of mashing of the electrode, a decrease in speed to the value of the settings will occur.

Claims (1)

This invention relates to electrothermal conditions. According to the main author. St. No. 797085 of the known device for automatic regulation of the electric mode of the arc transmission, comprising an electrode displacement mechanism, current and voltage sensors. Coincidence and delay elements, an electrode displacement speed sensor and two negative elements, one of the negative elements being connected between the current sensor and the first the input of the coincidence element, the second input of which through the second negative element is connected with the sensor of the speed of movement of the electrode, the third input through the specified delay element with the sensor eg And the output to the input of the electrode displacement mechanism fll The disadvantage of the known device is that, due to the uneven speed of the electrode and due to the generation of hydraulic plungers, wear and tear occurs due to irregular speed of the electrode. The purpose of the invention is to increase the quality of regulation by eliminating the possibility of falsely blocking the electrode, as well as breaking it when it is placed on the non-conducting charge, increasing the reliability of transmission, reducing costs per ton of metal. This goal is achieved by the fact that the device is equipped with a pressure sensor under the ram of the hydraulic cylinder connected through the third negative element to the additional input of the coincidence element and to the first RS-flip-flop input, the second KOToptoro through the fourth negative element is connected to the output of the electrode speed sensor, and its output is connected to the input of the second negative element. FIG. 1 shows a block diagram of the device; in fig. 2 is a register diagram of transitions between electrode speed and pressure processes under the plunger when the electrode stops in the current transfer circuit. The device contains a sensor for moving the electrode 1, a pressure sensor under the plunger 2, a current sensor for electrode 3, a phase voltage patch 4, negative elements 5-8, I S-TpMrrep element matching 10, an actuator moving the electrode 11. As can be seen from the register (Fig. 2, the pressure change lags behind the change in the electrode speed. The device operates as follows. Let the electrode move downwards using the movement mechanism, while the displacement is not equal to zero V iQ, the pressure of the plunger pressure is not zero. PfO, but Ke arc also not equal nulk) and the electrode current is zero. In this case, the output of the negative elements 5, 6 and 7 will be logical zeros, the output of the negative element 8 is a logical one. Since the fall of the element 10, two logical zeroes and two logical units arrive at the input of the element; the output of the latter will be a logical zero. When the electrode is pushed into the non-conducting mixture, the speed of the electrode first decreases. The speed sensor is configured in such a way that condition V and the threshold are fulfilled, and, therefore, at the output of negative elements 5 and 7 we will have a logical unit, and at the output of negative element 6 we will have a logical zero. The input of match 10 is a logical zero and three logical units, therefore, its output is "(there will be a logical zero. When the pressure P reaches the threshold at the output of negative 6, it is logical and the input of the match is four logical units, and at its output, there will be a signal of a logical unit. This signal, acting on the executive mechanism, will block the hydraulic line and block the movement of the electrode. If during the lowering of the electrode due to mashed and the electrode will decrease in speed to the value and V threshold, since the pressure does not reach the value of Р Р threshold, one logical zero and three logical units arrive at the input of the coincidence element, therefore, its output will have a logical zero and the electrode will continue to move down If during the descending of the electrodes for ignition of the arc, the phase voltage of the electrode, the first contacting conductive charge, will be zero, and the input zero from the voltage sensor 4 will receive a logical zero, the devices o will be disconnected from the additional mechanism, since its input will be a logical zero. Similarly, when the arc is ignited, a logical zero arrives at the input of the coincidence element 10c of the current sensor 3 through the negative element 8 and the device will be disconnected from the actuator. The proposed device for adjusting the electric mode allows you to disable the breakage of the electrodes, save electricity, reduce furnace downtime, improve performance and technical and economic indicators of electrothermal installations. The invention The device for regulating the electric mode of an electric arc furnace according to ed. St. 797085, in order to improve the quality of regulation, it is equipped with a pressure sensor for a gray cylinder ram connected through a third negative element to an additional input of a coincidence element and to the first input P.5- a trigger, the second input of which through the fourth negation element is connected with the output of the electrode displacement velocity sensor, and its output is connected to the input of the second negation element. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 797085, cl. No05 B 7/148, 1978.