SU881656A1 - Device for group control of furnace transformers - Google Patents

Description

(54) A DEVICE FOR GROUP MANAGEMENT OF KILNERS The invention relates to the automation of technological processes and is intended to control furnace transformers of graphitization furnaces in electrode production. A device for controlling several units is known, comprising a power source, three relays, a step distributor, output start relays, unit readiness chains for starting, first and BTOjpbi rectifiers, a capacitor, and a Start contact. The start relays, the readiness chain, connected in series to each other, represent AND parallel circuits connected to the step distributor. The power sources are connected to the circuit via the make and breaker start contacts. The device allows you to automatically select the order of the unit to start or stop, to determine the readiness of the next unit to start Llj. The disadvantage of the known device is the lack of control over the state of the position of the units until

Claims (2)

TRANSFORMERS chenii and their coordination before inclusion. The permission to switch on the next unit occurs without the agreement of the position of the newly switched on unit with the working unit. In addition, the device cannot be used to control furnace transformers, since, if the stages of the transport and formers are not in a consistent position, current redistribution occurs, which can lead to emergency operation. The closest in technical terms to the invention is a device for group control of hydraulic units, comprising a master control unit for connecting power units, connected to a connection order selector unit, as well as a Moitt mismatch signal sequencer and switching unit with corresponding First Outputs According to the number of hydraulic units, they are connected to the first inputs of the corresponding hydraulic units L2j, 38 The disadvantage of this device is that it is narrowly applicable. This is only for controlling hydraulic units, which are connected to the grid after gaining nominal rotations, and after switching on to the grid are synchronized in phase automatically with the power system due to forced excitation. Furnace transformers must be interconnected according to the parameters (transformation ratio) prior to switching ON by certain commands, after which they may be included in the network. Therefore, the device will not be able to harmonize the parameters of transformers when turned on in parallel in the net. This leads to the use of electrical power, as well as emergency operation due to the redistribution of furnace transformer currents. The purpose of the invention is to improve the reliability of operation of the device for group control of furnace transformers by eliminating emergency conditions. The goal is achieved by the fact that the device generates the error signal of the nominal currents of furnace transformers, the unit for matching the transformer stages and the number of furnace transformers, the first element And the second element And the sensor for the transformer stages, and the corresponding second inputs of the connection selection sequence are connected to corresponding outputs of the driver of the signal mismatch of the rated currents of furnace transformers, and the corresponding outputs with the first inputs The corresponding first elements I and with the first inputs of the corresponding second elements I, the second inputs of which are connected to the outputs of the corresponding switches of the stages of furnace transformers through the respective sensors of the transformer stages, and the outputs to the corresponding first inputs of the transformer stages matching unit, the second input of which is connected to the output of the setpoint adjuster of the furnace transformer connection, the corresponding first outputs - with the second inputs of the corresponding switches furnace transformer stages, and the corresponding second switches with corresponding second inputs of the switching unit, the second OUTPUT of which is connected to the second inputs of the first elements M. 6 The drawing shows the block diagram of the proposed unit for group control of furnace transformers. The device contains furnace transfer-switches 1 -1, switching-Gels of furnace transformer stages, sensors of Zoo transformer step-second sensors And, a block of transformer stages 5, switching unit 6, power error generator 7, sensor power error 8, sensor the actual power 9, the power setting device 10, the first elements 11-11, the block for selecting the sequence of the charging station 12, the setting generator for connecting the furnace transformer 13, the driver of the error signals of the nominal nyh current furnace transformers 14, current sensors 1 -15l transformers, current transformers nominal setting elements, sensors mismatch rated currents. The device works as follows. At the beginning of the graphitization process, one transformer operates, and at the end - all four transformers. The setting device for connecting the furnace transformers 13 sets the sequence for inserting furnace transformers, for example, in the following sequence 1L, 1, 1, and 1D. The first included transformer T is the master, the setting devices of the rated currents of the transformers 16, -164. the permissible rated current of the transformers is set. After that, the device is put into operation. The block for selecting the sequence 12, through the first element AND And includes the first transformer 2. through the second element And 42. connects the position sensor of the transformer 32 steps to the matching unit of the transformer steps 5. The block 5 outputs a signal to the switching unit 6, where the number of the transformer to be activated is stored 12 to work. At the initial moment, until the current of the first switched on transformer 1 reaches the nominal value, the program control is carried out through the switching unit 6 according to the commands of the power error generator 7. If the actual power measured by the actual power sensor 9 is greater than the specified power determined by the power setting 10, Then the switching unit 6 controls the switch of the furnace transformer 2., the switched on transformer 12 in the direction of voltage reduction through the first outputs, and vice versa sleep actual capacity is smaller than predetermined, the switch is in the direction increasing the voltage at which the slowly changed yuschems resistance furnace respectively causes current increase. When the device operates in the power control mode until the current of the transformer is turned on, the rated current of the turn-on selection unit of the transformer 12 and the matching unit 5 do not function. The output of the switching unit 6 to the inputs of all elements receives a ban. When the current of the operating transformer 1 reaches its nominal value, the connection selection block 12 receives a signal from the error sensor unit 14c of nominal current 17. Block 12 supplies the enable signal to the first input of the first element And 1 lyj. next included furnace transformer 1 and through the second element. And 4 connects the position sensor of the transformer steps 3 to the step matching unit of the furnace transformers 5, Block 5 outputs a signal to the switching unit 6 about the mismatch of the position of the transformer stages working and re-activated. In this case, the switching unit 6 remembers the number of the transformer to be switched on and, if the positions of the switch for operating 12 and the newly switched on 1 are different, the switching unit 6 prohibits the element 11, through which the connecting unit 12 must switch the next transformer 1 into operation, and also prohibits the passage of signals from block 7 to the switch of steps 2 2. of the operating transformer 1. Block 5 also issues a command in the form of pulses to block 2 / f of the transformer 1 to be operated, for matching the steps included in the operation and running 1 (master) transformers. After equal stages, the switching unit b removes the prohibition for passing signals from block 7. If the actual power is greater than the specified power, then the error signal goes to the switching unit 6, which outputs the signal to the switches of the working 2. 2 stages. operation 2 for switching the voltage steps of transformers 1 .. 1-1 to the direction of decreasing voltage. The voltage reduction occurs as long as the power set by the setting device 10 is not equal to the actual one. After that, the switching unit 6 removes the prohibition from the cell 11 and the signal from the unit 12 through the first element I 1 Ij includes the next transformer prepared for operation. Further control of the switches of steps 2 and 2. 2 is carried out from the switching unit 6 depending on the power mismatch 3 and actual. In this case, the matching unit 5 and the selection block of connection 12 do not function until the operating transformers 12 and 1 reach their rated value, after which the next switched on transformer Ij is connected in the same way as the previous one. The actuator that switches the voltage levels of the furnace transformer only works for the furnace transformer that is connected to the operation. The presence of a transformer step alignment unit ensures the same position of the step turners operating and connected transformers. This allows to ensure the same current distribution between transformers and thereby exclude emergency modes, as well as to increase the average utilization rate of the heating current of the furnace. An apparatus for group control of furnace transformers, comprising a generator for connecting transformer furnaces, connected to a connection selection selector unit, as well as serially connected power error generator and switching unit, in which the corresponding first outputs are connected to the first inputs of the corresponding switches steps of a furnace transformer, characterized in that, in order to increase the reliability of fu Operation of the device, the mismatch signal generator of nominal currents of furnace transformers, the block of matching transformer stages and the number of furnace transformers, the first element And, the second element And and the sensor 7 position of the transformer stages are entered into it, with &;; .:: the second inputs of the Ei.iacpa block:;: The connection of the connection with the corresponding outputs of the form of the error signals of the nominal currents of the furnace transformers, and the corresponding outputs with the first inputs of the corresponding first elements And with the first inputs of the corresponding second elements And, the second inputs of which are connected to the outputs of the corresponding switches of the furnace furnace transformers through the corresponding position sensors of the transformer stages, and the outputs from the corresponding first and inputs of the transformer stage matching unit, the second input of which is connected to the output of the setter for connecting furnace transformers, the corresponding first outputs ™ with the second inputs of co-transformer switches of furnace transformers, and the corresponding second outputs with the corresponding second inputs of the switching unit, the second the output of a collar is connected with the second inputs of the first elements I. Sources of information taken into account during the examination 1. Author's certificate of the USSR No. 48541О. CP O 05 V 11 / 01.24.01.73. 2. The author's certificate of USSR No. 484494, CP. O 05 V 11/01, 10.O5.78 (prototype).