SU627595A1 - Pulse counter - Google Patents

Description

The invention relates to automation, can be used in pulse counting devices with digital indication, electronic clocks, automatic control devices with information preservation during power loss. Pulse counters on peJieftHHx elements are known, containing in each discharge electromagnetic relays and a control trigger, the output of which through the switching contacts is connected to the electromagnet power buses. relay relays, and the input of each subsequent bit is connected to the output of the previous bit through the AND element from the closing contacts of the zero state electromagnetic relay and the last counting relay; the previous bit l. However, these counters are complex, since for each discharge there is one relay that is constantly consumed. energy from the power source, and when power is removed, the recorded information is destroyed. Closest to the proposed pulse counter, containing a series-connected trigger and valve, there is a polarized relay in each discharge valve category. The turn-on winding of the i-th bit is connected to the disconnecting contact of the i + 1-st relay, short circuits the i-th discharge contact is connected to the 1 + 2-th switching contact, one trigger output is connected to the second-switching switching relay, and another connected to the switching contact of the relay of the first discharge t Н,. This pulse counter is rather complicated, has a large number of electromagnetic relays and, therefore, does not provide high reliability. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that in a pulse counter containing polarized relays, diodes and capacitors, one input of counting pulses is connected to the beginnings of the first winding of odd relays and the second winding of even relays, the other input of counting pulses is connected to the beginnings of the first winding of even relays and the second winding of odd relays, switching contacts of the first and second groups of all relays except the switching contact of the second group of the last relay are connected respectively to the closing and opening contacts of the first and second groups of the other The main relay and diodes are connected to the ends of the first and second windings of their own relays, the switching contact of the second group of the last relay is connected to the common bus, and the switching contacts of the first and second group of the first relay are connected respectively to the opening and closing contacts of the second group of the last relay, each winding of which is connected parallel to the controller. and by the end of the second winding is connected additionally through the opening contact diode of the second group of the previous relay.

The drawing shows a flow chart of a pulse counter for ten bits.

The impulse pulse counter contains output terminals 1–10, polarized relays 11–15, each with two groups of contacts, diodes 16–25, capacitors 26 and 27, common bus 28, and input buses 29 and 30. The switching contact of the first group of each relay is connected with .sgmykayuschim contact of the same group of the previous relay and through diodes 16, 18, 20, 22, 24 and the lower winding of its own relay - with input buses 29 and 30, and if the relay is even 12, 14 - with input bus 30, if odd 11 , 13, 15 - with input bus 29. The switching contact of the relay 11 (first in order) is connected to the breaker terminal second cycle of the last relay 15. The switching contact of the second group of the last relay is connected to the common bus 28. The switching contacts of the same group of the remaining relays 11-14 are connected to the disconnecting contact of the previous relay and through the diodes 17, 19, 21, 23 and the upper winding of their own relays - with input bus 29, if the relay is odd 11, 13, and with input bus 30, if the relay is even 12, 14, the switching contact of relay 11 is connected to the closing contact of the second relay group 15. The opening contact of the same group of relay 14 is connected via a diode 25 and the upper winding of the relay 15 with input bus 29. In parallel with each winding of the relay 15, a capacitor 26 (27) is connected. Output buses 1-5 are connected to the break contacts of the first relay group 1115, respectively. Output buses 69 are connected to the closing contacts of the second relay group 11-14, respectively. The output bus 10 is connected to the disconnecting contact of the second relay group 14.

The pulse counter operates as follows.

Let relay 11-15 be in the states shown in the drawing. Odd pulses are fed to the input bus 30, and even ones - to the bus 29. When

When the first pulse arrives at the bus 30, the relay 11 is activated, as a result of which the common bus 28 connects to the output bus 2 and through the diode 18 to the end of the first winding of the relay 12, preparing it for operation.

The second counting pulse arriving at the bus 29 switches the contacts of the relay 12 to another position. In this case, the common bus 28 is connected to the output bus 3 and through the diode 20 to the end of the first winding of the relay 13, etc. The fifth pulse triggers the last relay 15, as a result of which the common bus 28 is connected to the output bus 6 and through diode 17 to the end of the second winding of the relay 11, preparing it to return to the initial state.

Subsequent pulses alternately set the relay 11-15 to the initial state, connecting in series the common bus 28 to the output buses 7-10, after which the cycle repeats. Thus, each of the ten pulses

 causes you to alternately connect (Running tires 1-10 to tire 28. At the same time, in the proposed device

5 of the count of ten pulses, five polarized relays are used instead of ten in the prototype, which makes it easier and more reliable cxeii.

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If it is necessary to display the meter states, output devices can be directly connected to indicator devices without intermediate amplifiers.

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Claims (2)

1. USSR Author's Certificate No. 408463, H 03 to 23/03, 04.01.74. . 2. USSR author's certificate No. 482900, H 03 to 23/03, 12.11.75.