SU1622947A2 - Pulse counter - Google Patents

Abstract

The invention relates to a pulse technique and can be used in discrete automatics devices of the 1st spruce of the invention - the functionality is enhanced by a ring mode of operation. The counter contains cells 1-5, each cell has a thyristor 6, a switching capacitor 7, a relay 8, and also an additional thyristor 24, an additional relay 2R and an additional switching capacitor 25o. The presence of the latter ensures the disconnection of the additional thyristor 24 and relay 28. This allows to provide a ring mode the work of the trencher. 1 silt

Description

The invention relates to a pulse technique, can be used in discrete automation devices and is an improvement of the invention by ed. St. No. 1309305.

The aim of the invention is to expand the functionality of the device due to the ring mode of operation "

The drawing shows a circuit diagram of a pulse counter for ten load elements.

The pulse counter contains cells 1-5, and in each cell - thyristors

6.1, 6.2, 6.3, 6..4 and 6.5, switching capacitors 7.1, 7.2, 7.3,

7.4, 7.5 and relays 8.1, 8.2, 8.3, 8.4. and 8.5. Relay 8.1 of cell 1 contains the first 9 and second 10 closing and switching 11 contact groups, relays 8.2, 8.3, 8.4 - closing 1214 and switching 15-17 contact groups, respectively, and relay 8.5 the first 18, second 19, third 20 closing and opening 21 contact groups. The device also contains a power bus 22, a common bus 23, an additional thyristor 24, an additional switching capacitor 25, the first 26 and second 27 additional resistors, an additional relay 28 with a disconnecting 29, the first and second 31 switching contact groups, load (actuating) elements 32— 41, a pulse transformer 42 with primary 43 and secondary 44 windings. In each cell 1-5, connect the cathode of the corresponding thyristor 6.1-6.5 to the common bus 23, the anode through the relay winding 8.1 ^ -8.5 - to the power bus 22 and through the switching capacitor 7.1-7.5 - to the anode of the thyristor 6 "2-

6.5, 6.1 "The control electrode of thyristor 6.1 of cell 1 is connected to the opening contact of the switching group 11 of relay 8.1 of its cell, the control electrode of thyristor 6.2-

6.5 cells 2-5 connected to the make contact of the switching group 11,15-17 of the relay 8.1-8.4 cells 1-4, respectively, the switching contact of the switching group 11, 15, 16 of the relay

8.1-8.3 cells 1-3 is connected to the disconnect contact of the switching group 15-17 of the relay 8.2-8.4 cells 2-4, respectively, switch [the contact of the switching group 17 of the relay 8.4 of the cell 4 is connected to the first output of the secondary winding 44 of the pulse transformer 42, the second output which is connected to a common bus 23, and the primary winding 43 is the input of the device. The cathode of the additional thyristor 24 is connected to a common bus 23, the anode through the winding of an additional relay 28 to the power bus 22.

The switching contact of the first switching group 30 of the additional relay 28 is connected to the power bus 22, the opening contact of which is connected to the first terminals of the first group of actuators 32-36, and the making contact to the first terminals of the second group of actuators 37-41, the second conclusions of the first and the second groups in pairs (32 and 37, 33 and 38, 34 and 39, 35 and 40, 36 and 41) are connected and through the closing contact groups 9, 12-14, 18 of the corresponding relays

8.1-8.5, cells 1-5 are connected to the common bus 23. In series with the make contact 9 of the relay 8.1 cells 1 is connected the make contact 21 of the relay

8.5 cells 5 "The control electrode of the additional thyristor 24 through a series-connected opening contact group 29 of the additional relay 28, the closing contact groups 19, 10 of the corresponding relay 8.1-8.5 cells 1-5 and the first additional resistor 26 is connected to the power bus 22. The first conclusions of the additional switching capacitor 25 and the second additional resistor 27 are combined and connected to the anode of the additional thyristor 24, the second output of the additional switching capacitor 25 through the switching and disconnecting contacts of the second switching group 31 of the additional relay 28 is connected to the second terminal of the second additional resistor 27, the closing contact of the second the switching group 31 of the additional relay 28 through the make contact 20 of the relay 8.5 of the cell 5 is connected to the anode of the thyristor 6.1 of the cell 1.

The pulse counter operates as follows.

In the initial state, when connected to power buses 22 and 23, thyristors 6.1-6 “5 and 24 are closed, relay windings 8.1-8.5 and 28 are de-energized, actuators 32-41 are disconnected.

When the first counting pulse arrives at the input, the primary winding 43 of the pulse transformer 42, a control pulse is generated on the secondary winding 44 of the latter, which turns on the thyristor 6.1 of cell 1 through the control circuit, relay 8.1 trips, closes contact groups 9 and 10 and switches the contact of switching group 11. In this case, the actuating element 32 is turned on, and the secondary winding 44 of the pulse transformer 42 is connected to the control electrode of the thyristor 6.2 of cell 2 (the counting pulse should have ended by this moment). Upon receipt of the second counting pulse, the thyristor 6.2 of cell 2 will turn on, the relay 8.2 will trip, close the contact group 12 and switch the contact of the switching group 15. This will turn on the actuator 33, the second winding 44 of the pulse transformer 42 will be connected to the control electrode of the thyristor 6.3 of cell 3, and through The switching capacitor 7.1 closes the thyristor 6.1 of cell 1, the relay 8.1 and the actuating element 32 turn off. Upon receipt of the third 15 fourth counting pulses, the actuating elements turn on similarly s 34 and 35 are deactivated and actuators 33 and 34.

Upon receipt of the fifth counting pulse, thyristor 6.5 of cell 5 will turn on. Relay 8.5 will trip, open contact 21 and close contacts 1820. In this case, actuator 36 will turn on, through the switching capacitor 7.4, the thyristor will close

6.4 cells 4, the relay 8.4 and the actuator 35 are turned off, and the secondary winding 44 of the pulse transformer 42 is connected to the control electrode of the thyristor 6.1 cells 1 through the switching contact groups 17, 16, 15, 11. The closing contact group 19 prepares the inclusion of additional thyristor 24. Upon receipt of the sixth counting pulse, thyristor 6.1 of cell '1 will turn on. Relay 8.1 will operate, close the contact groups 9, 10 and switch the contact of the switching group 11.

In this case, the secondary winding 44 of the pulse transformer 42 is connected to the control electrode of the thyristor

6.2 cells 2, through the control circuit through the resistor 26 and contact groups 10, 19.29, an additional thyristor 24 will turn on, and through the switching capacitor 7.5, the thyristor 6.5 of cell 5 will close, the relay will turn off

8.5 and the actuating element 36. An additional relay 28 will operate, open the contact group 29, and switching the contacts of the switching groups 30, 31. After switching the contact of the group 30 and closing the contacts of the group 21, the actuating element 37 will turn on. When the seventh to ninth counting pulses are received, the device operates in the same way as upon receipt of the second to fourth pulses, and additional elements 38 to 40 are turned on alternately and actuators 37 to 39 are turned off. Upon receipt of the tenth counting pulse, thyristor 6.5 of cell 5 will turn on. Relay 8 5 will trip, open the contact of group 21 and close the contacts of groups 18-20. In this case, the actuating element 41 is turned on, through the switching capacitor 7.4, the thyristor 6.4 of the cell 4 is closed, the relay 8.4 and the actuating element are turned off. 40, and the secondary winding 44 of the pulse transformer 42 will be connected to the control electrode of the thyristor 6.1 through the switching contact groups 17-15,11. The closing contact of group 20 prepares the shutdown of the additional thyristor 24. Upon receipt of the eleventh counting pulse, the thyristor 6.1 of the cell 1 will turn on, the relay 8.1 will trip, close the contact groups 9, 10 and switch the contact of the switching group 11. In this case, the secondary winding 44 of the pulse transformer 42 will be connected to the control electrode thyristor 6.2 cells 2, through the switching capacitor 7.5- the thyristor 6.5 of the cell 5 closes, the relay 8.5 and the executive element 41 are turned off, and through the contact groups 20, 31 and the switching capacitor Atator 25, the additional thyristor 24 will close, the additional relay 28 will turn off, its contact groups will return to their original position. After switching the J contact of the group 30 and closing the contacts of the group 21, the executive element 32 will turn on. In the future, the pulse counter works similarly.

To ensure normal operation when closing and opening contact groups 10, 19 and 29, a delay can be made (if necessary) to turn off the corresponding relay in a known manner, for example, by shunting the relay winding with a diode. jq

Claims (1)

Claim Impulse counter by ed. St. No. 1309305, characterized in that, in order to expand the functional capabilities due to the ring mode of operation, an additional switching capacitor and a second additional resistor are introduced into it, the relay of the last cell is equipped with a 20 NC contact and a third NC contact, and an additional relay with an NC contact and the second contact group, the first conclusions of the additional switching capacitor and the second additional resistor are combined and connected to the anode of the additional thyristor, the second output an additional switching capacitor through the switching and opening contacts of the second contact group of the additional relay is connected to the second terminal of the second additional resistor, the closing contact of the second contact group of the additional relay is connected to the thyristor anode of the first cell through the third closing contact of the last cell, the control electrode of the additional thyristor is connected to the second closing contact group of the relay of the last cell through the opening contact of the additional relay, and between the common by the bus and the closing contact group of the first cell, the relay contact of the last cell is switched on.