SU1138938A1 - Step distributor - Google Patents

Abstract

UlArOBbLH DISTRIBUTOR, containing in each cell a remote switch with a contact group that turns on and off the windings, the first terminals of which are connected to the positive pole of the power source via the switch connected to the positive pole of the power source, the second terminals connected to the anodes of the first and second thyristors, respectively in which, in each cell, except the first one, the control electrode of the first thyristor is connected to the closing contact of the contact group of the previous cell, and in the first cell the control electrode Here, the first thyristor is connected to the opening contact of the contact group of its own cell, the cathodes of the first thyristors of all cells are combined, as well as the source of clock pulses, the output of which is connected to the control input of the key and to one output of the capacitor, characterized in that A resistor η two additional thyristors are inserted into it, the anode of one of which is connected to the cathodes of the first thyristors of all cells, and the anode of the other - to the cathodes of the second thyristors of all cells that control the electrode The additional thyristors are connected to the one terminal of the resistor through the contact group of the last cell, the other terminal of which is connected to the first terminals of the switching on and off windings of all the cells, the cathodes of the additional thyristors are co-; The cells are connected to the negative pole of the power source, the common contact of the contact group of the penultimate cell is connected to another capacitor lead, in each cell except the last one, the control electrode of the second thyristor is connected to the control electrode of the first thyristor of the next cell, and the control electrode from the second one the thyristor of the last cell is connected to the control electrode 00 of the first thyristor of the first cell.

Description

The invention relates to automation and can be used in devices for discrete information processing, counting and control. A stepper distributor is known that contains switching cells, the power supply buses of which are connected via a control key to the power supply buses, and the control key input to the clock pulse bus, with these switching cells made on a remote switch consisting of an on-off winding, in which the thyristor, breaker winding and a group of switching contacts, the opening contact of which in each cell, starting from the second one, is connected to the moving contact of the previous cell, the closing contact of all cells, including In addition to connecting to the control electrode of the last cell thyristor, the control electrode of the first cell thyristor is connected to the opening contact of the corresponding cell, and the moving contact of the last cell is connected via a capacitor to the clock pulse bus Cl. The disadvantage of this step distributor is low functionality, since it is necessary to have a cell to distribute the signals. The closest in technical essence to the present invention is a step distributor containing a remote switch with a contact group including and disconnecting windings, the first terminals of which are combined and connected via a key to the positive pole of the power source; the second terminals of the enabling and disconnecting windings are connected respectively with the anodes of the first and second thyristor, and n to each cell, except the first control electrode of the first thyristor, of the torus is connected to the closing contact of the contact plate the previous cell and the first thyristor control electrode in the first cell are connected to the opening contact of the contact group of their own cell, the cathodes of the first thyristors of all the cells are combined, as well as the source of clock pulses, the output of which is connected to the control input of the key and one terminal of the capacitor L23 . A disadvantage of the known distributor is its low distribution accuracy. The purpose of the invention is to increase the accuracy of distribution. The goal is achieved in that in the step distributor containing c. each cell has a remote switch with a contact group that turns on and off the windings, the first terminals of which are combined and connected via a key to the positive pole of the power source, the second terminals of the switching on and off windings are connected respectively to the anodes of the first and second thyristors, and in each cell except the first, the control electrode of the first thyristor is connected to the closing contact of the contact group of the previous cell, and in the first cell, the control electrode of the first thyristor is connected to the contact of the contact group of its own cell, the cathodes of the first thyristors of all the cells are combined, as well as the source of clock pulses, the output of which is connected to the control input of the key and to one output of the capacitor, a resistor and two additional thyristors are inserted, the anode of one of which is connected to the cathodes of the first thyristors of all cells, and the anode of the other, with the cathodes of the second thyristors of all cells, control electrodes of the additional thyristors through the contact group of the last cell connected to one output of the resistor, the other output which is connected to the first terminals of the on and off windings of all cells, the cathodes of the additional thyristors are connected to the negative pole of the power source, the common contact of the contact group of the penultimate cell is connected to another terminal of the capacitor, in each cell, except the last, the control electrode of the second thyristor is connected the control electrode of the first thyristor of the next cell, and the control electrode of the second thyristor of the last cell is connected to the urrure electrode of the first thyristor of the first cell . The drawing shows a structural-electrical diagram of the stepper distributor.

The proposed distributor will contain a source of 1 clock pulses, a capacitor 2, and in each 3 others - a remote switch 4 with a contact group 5, including

it has 6 and disconnected 7 windings, a first thyristor 8 and a second thyristor 9, as well as a switch 10, two additional thyristors 11 and 12, a resistor 13 and a power source 14 ..10

Stepper valve works as follows.

The first clock pulse from the clock pulse source 1 is fed to the input of the key 10 and through the condenser 5 to the torus 2 and the circuit of the opening contacts in the contact group 5 to the control electrodes of the thyristors in the cell 3, the key 10 is closed by the action of the clock pulse and 20 kam applies the voltage of power supply 14: the first thyristor 8 of the cell opens (thyristor I1 is open, because a positive voltage is applied to its control electrode), because the current from the first clock pulse flows through its control electrode b energizes winding comprising remote switch 4 first chey- .About ki 3. Remote switch 4 of the first cell 3 is activated, transferring its movable contact B nereklgochayuschey contact group 5 and thus controlled 35 is connected

the first electrode of the first thyristor 8 of the next cell 3 to the source of the I clock pulses.

However, at this point in time, capacitor 2 is already charging, current 40

in the thyristor control circuit drops to zero and the first thyristor 8 of the next cell 3 is not included. The control key 10 remains closed for the time necessary for | s to operate the remote switch, after which the key 10 opens, disconnecting cells 3 from the source 14 of the constant voltage remote switch $ 0 4 cells 3 retains its new state . With the arrival of the second clock pulse, the key 10 is again closed, the first thyristor 8 of the second cell 3 is already opened, as the control electrode of this thyristor is connected to the source 1 of clock pulses. When the first thyristor 8 of cell 3 is turned on, the switching winding 6 of the remote switch of this cell is energized, which triggers the remote switch 4 and resets the moving contact in the switching group of contacts 5 of cell 3.

Thus, each clock pulse from clock source 1 triggers the switching on of the first thyristors 8 and the triggering of the remote switches 4 in cells 3. With the arrival of the g pulse, the first thyristor 8 of the last cell 3, the current passing through the switching winding 6 of the remote switch also turns on the last cell 3, causes it to turn on and transfer the moving contact of the contact group 5. However, by this time all the switching contacts of group 5 have already transferred their moving contacts and with the transfer under A contact in the switch contact group 5 of the remote switch of the last cell 3 creates a circuit for connecting the control electrode of the second thyristor 9 of the cell to the source 1 of the clock pulses (positive voltage when the switch 10 is closed after the moving contact of the contact switch 5 of the remote switch 4 is last cells 3 are fed to the control electrode of the additional thyristor 12). With the arrival of the (n + 1) pulse, the second thyristor 9 of the penultimate cell 3 and the current passing through the winding 7 turn on, activates the remote switch 4 and relocate the moving contacts in the switching contact group 5 to the initial state. This creates a circuit to turn on the second thyristor 9 of the previous (second) cell 3. Next, the operation of the distributor proceeds as described above and with the arrival of the (n + n) pulse from the clock source 1, the second hydristor 9 of the last cell 3 is turned on, and the current passing through the winding 7 of the remote: 4 switch 4 of the last cell 3. causes its operation and the return of the moving contact in the switching contact group 5 consecutively. 5,1 ne 3 cells in the initial position. The whole circuit assumes the initial state and with the arrival of the C2p + 1) clock pulse the distribution cycle is repeated. As the distributor outputs, you can use the anodes of the first and second thyristors 8 and 9 in cells 3 or, if necessary, complete galvanic isolation of the circuits, additional contacts of remote switches. Thus, the proposed technical solution makes it possible to obtain a stepper valve with the number of cells and the number of distribution steps 2n. The technical and economic effect of the invention is to improve the accuracy of the distribution of the step distributor.

Claims (1)

STEP-BY-STEP DISTRIBUTOR, containing in each cell a remote switch with a contact group, turning on and off the windings, the first conclusions of which are combined and connected through a key. to the positive pole of the power source, the second leads of the turning on and off windings are connected: respectively, with the anodes of the first _: and second thyristors, and in each cell, except for the first, the control electrode of the first thyristor is connected to the closing contact of the contact group of the previous cell, and in the first the control electrode of the first thyristor is connected to the opening contact of the contact group of the own cell, the cathodes of the first thyristors of all cells are combined, as well as a clock source whose output is connected It is connected to the control input of the key and to one output of the capacitor, characterized in that, in order to increase the accuracy of distribution, a resistor and two additional ones are introduced into it. thyristor, the anode of one of which is connected to the cathodes of the first thyristors of all cells, and the anode of the other is connected to the cathodes of the second thyristors of all cells, the control electrodes of the additional thyristors through the contact group of the last cell are connected to a single terminal of the resistor, the other terminal of which is connected to the first terminals including § and disconnecting windings of all cells, cathodes of additional thyristors are connected to the negative pole of the power source, the common contact of the contact group of the penultimate cell is connected to another terminal of the condensation torus, in each cell, except the last, the control electrode of the second thyristor is connected to the control electrode of the first thyristor of the next cell, and the control electrode of the second thyristor of the last cell is connected to the control electrode of the first thyristor of the first cell. SU „„ 1138938