SU930691A1 - Pulse counter - Google Patents

Description

(5) PULSE COUNTER

one

The invention relates to a pulse technique and can be used in automation in devices where it is necessary to count the number of pulses with automatic setting of their limiting value.

Pulse counters are known that contain a control circuit, a reset node, a power bus and a counting cell on two relays and three diodes J

Their disadvantage is low reliability.

A counter is known that contains a control node and in each bit there are two le and three diodes, as well as a reset node in the initial state on relay 2.

The disadvantage of the known counter is low reliability, due to the presence of a large number of contacts in each discharge.

The purpose of the invention is to increase reliability.

The goal is achieved by the fact that the pulse counter e contains a control node, a cumulative register made on relays and diodes, a reset node, a minus and a plus power bus, one of which is connected to the power supply terminal via the make contact of the reset node, the control node contains one switching and one closing group of contacts, and each (- and the discharge of the storage register contains a two-winding relay, the beginning of the winding of which is connected via a diode to the closing contact of the switching group of the control unit and, and the end is connected to the minus bus through a resistor, the coupling element and the closing contact (-1) of the HS discharge, and through the capacitor to the switching contact of the control node / 1a switching group, in addition, the beginning of the second winding of the relay through the closing contact its relay is connected to the positive bus, and the end is connected to the negative bus, and the break contact of the switching group of the control unit is connected to the positive terminal of the power supply.

In addition, counting | 1k pulses to expand the functionality of the reset unit may consist of a two-winding relay, the beginning of the first winding of which and the thyristor anode through the parallel connection of the contacts of the closing groups of its own and the control node are connected to the positive terminal of the power source and the end of the first and most the second winding is connected to the negative bus; in addition, the end of the second winding of the relay is connected to the thyristor cathode, the control circuit of which is connected via a serial connection of the Lahr resistor to the closing relay contact the storage bit of the cumulative register in parallel are connected to the source of the control signal.

In addition, in the pulse counter, a disconnecting relay contact of the given discharge is used as a coupling element combining the i-th resistor with the minus bus.

The drawing shows a circuit diagram of a pulse estimator.

The pulse counter contains a control unit 1 consisting of a switching 2 and a closing 3 contact groups. The minus bus is connected directly to the power source, and the positive bus 5 is connected via the closing contact 6 of the reset node 7. The storage register 8 consists of N-bit cells, each of which contains a two-winding relay 9. The start of the first winding of this relay is connected via a diode 10 to the closing contact of the switching group 2 of the control unit 1. The end of the first winding through the resistor 1 and the closing contact 12 of the previous discharge relay (for the first discharge circuit, this contact is absent) is connected to the negative power supply line k, and through a capacitor 13 to the switching contact of the control group 2 of the control unit. The beginning of the second winding of the relay 9 through its closing contact 14 is connected to the positive bus 5, and the end with the negative bus. The opening contact of the switching group 2 of the control unit is connected to the positive terminal 15 of the power supply. Node 7 reset consists of a double-winding relay 16

The beginning of the first winding of which is connected through a parallel connection of the closing contact 17 of its relay and contact 3 of the closing group of the control unit 1 is connected to the positive terminal 15 of the power supply. To the beginning of the first winding of the relay 16 is connected the anode of the thyristor 18, the cathode of which is connected to the end of the second winding of the relay 16. The end of the first and the beginning of the second winding of the relay 1 are connected to the negative bus bar k. The thyristor control circuit contains a series connection of parallel pairs of resistor 19 and the closing contact 20 of the relay 9 of the corresponding bit of the storage register 8. The control circuit is connected to the control signal source 21. In each discharge between the resistor 11 and the negative bus, the coupling element 22 is turned on, which is just opening and the relay contact is its own and that Reduces the number of charge-discharge cycles of the capacitor 13.

The contacts 23 of the relay 16 of the reset node 7 are used in the circuit of the executive bodies.

The meter operates as follows. In the initial position, the capacitor 1 of the first cell is charged through the resistor 11 to the value of the power supply voltage. At the moment of the pulse arrival, the control unit 1 switches the contacts 2, the capacitor 13 from the charge to discharge mode. It is discharged to the first winding of the relay 9. As a result, this relay 9 is activated and with its contacts It closes the circuit of the second winding of this relay. The relay of the first digit with its contacts 12 prepares the charge circuit of the capacitor 13 of the next digit, etc.

After the pulse is removed, the contacts 2 of the switching group of the control unit 1 close the charge circuit of the second discharge capacitor.

The capacitor is charged, and the next pulse triggers a second-off relay 9, etc. In this way, when each pulse arrives, the number of drive relays on increases.

Claims (2)

The maximum possible number of accumulated pulses is determined by the number of bits of the cumulative register 8. When a cell of a given discharge is triggered, all cells are reset to the initial state, and the next pulse gives a command to re-read. Node 7 reset paGotaeT as follows. When the first pulse is applied by contacts 3, the circuit of the first winding of relay 16 closes. Relay 16 triggers with its contacts 17 self-locking. Firing with every pulse, relay 9 of each digit of register 7 with its contacts 20 short-circuits resistors 19 in the thyristor control circuit 18. Its control circuit is connected to the source control signal 21 As a result, when the thyristor control current reaches a critical value of 18 (and this depends both on the magnitude of the control signal and on the number of shorted resistors), thyristor switch 18 c of the second switch SB "A winding as the first and second relay coil of IS included counter, the said second switching windings cause, .perebros contacts 17, 23 and relay 16 off. Relay 16 by pin 6 will disconnect the bus 5 circuit from terminal 15 and the relay will reset all register 8 cells to their initial state. Further, when the next pulse arrives, the process of counting and resetting the pulses will repeat. Thus, by changing the control signal, the maximum number of pulses is automatically selected, at which the system is reset to its initial state. Such a counter is required in devices that provide a count of a certain number of pulses that change during operation and issue a command to the execution unit after reaching this value, for example, counting the number of revolutions of the vacuum filter discs with the blown off and turning it on one turn reaching a certain number of pulses. The required value of pulses. The volumetric load on the vacuum filter is determined using a sensor whose signal is connected to the counter reset unit. Claims 1. A pulse counter containing a control node, a cumulative register made on relays and diodes, a reset node, a minus and a plus power bus, one of which is connected to the power supply terminal via. closing contact of the reset node, which is characterized by the fact that, in order to increase reliability, the control node contains one switching and one closing contact group, and each storing accumulator register contains a two-winding relay, the beginning of the first winding of which is connected through a diode to the closing contact the switching group of the control unit, and the end through a resistor, the communication element and the closure relay contact (the 1 st bit is connected to the kmnus bus, and through a capacitor to the switching contact of the control unit In addition, the beginning of the second winding of the relay is connected to the plus bus through the closing contact of its relay and the minus bus to the end, and the disconnecting contact of the switching group of the control unit is connected to the positive terminal of the power source. and with the fact that, in order to expand the functionality, the reset node consists of a two-winding relay, the beginning of the first winding of which and the thyristor anode through a parallel connection of the contacts of the closing groups of its own and the control node are connected to the positive one the source of the power source, and the end of the first and the beginning of the second windings - to the negative bus; in addition, the end of the second relay winding is connected to the cathode of the thyristor, the control circuit of which is connected to the source through a serial connection resistor pair - the closing contact of the relay of the corresponding discharge register control signal. 3. Counter, pop. 1, which is also distinguished by the fact that the break contact of the relay of this discharge is used as a communication element uniting the resistor of the Jth bit with the minus bus. Sources of information taken into account in the examination 1. The author's certificate of the USSR (y, cl. N 03 K 23/03. 16.03.72. 2. Authors certificate USSR 690630, cl. H 03 K 23/03, 11/29/77.