DE2241663A1 - RELAY BINARY COUNTER - Google Patents

Description

Relay - binary counter Relay - binary counter The invention relates to a Relay binary counters, in particular for protective gas contact relays for use in electrical Controls and regulations for pulse counting or for the binary scaling of a pulse sequence.

Circuits with three relays and two normally open contacts each are known, as well as with two relays with alternating contacts. A circuit was found with three relays with one normally open contact each.

The circuit with three relays and two normally open contacts each has next the effort, the disadvantage of indifferent switching states due to different Switching times of the individual inert gas contacts of a relay0 The circuit with two Relays with changeover contacts cannot be used with protective gas contact relays for high Realize reliability because the reed contact closer has a maximum of demands on reliability taking into account specific parameters. The circuit found requires three relays, the purpose of the invention is. an economical, reliable one to get the optimal solution of the relay binary counter with a protective gas contact relay, which is characterized by a minimal number of contacts and therefore minimal wear.

The object of the invention is with the relay binary counter pulses in counting a counter chain according to the binary system, through within a counter chain a setting impuis any single counter without retroactive effect on previous and to set the following counters, i.e. to move from the O function to the L function or to extinguish by an extinguishing pulse i.e. from the L-point; ion to the O-function see below and uncouple the functional state of the individual counter without any reaction.

According to the invention the object is achieved in that a protective gas contact relay with a winding and a normally open contact as a storage relay through a 1. Pulse equal to the operating voltage via the counter input or the control input is brought into self-holding and the memory function is fed to the output F. will.

For the duration of the 1st pulse, a second protective gas contact relay with a winding and a normally open contact as a coupling relay through one of the Inputs supplied voltage divider and vcm contact of the storage relay via a sound diode is kept in the fault voltage range, cannot switch until after the end of the 1st pulse due to the elimination of the cross current through the voltage divider resistor the relay comes into the range of its response voltage and with its normally open contact couples the counter input with the counter output. Through one to the counter input applied 2nd impulse, which is instantaneous via the closed contact of the coupling relay is present at the output of the counter, the storage relay is thrown off via a switching diode. The coupling relay, however, for the duration of the 2nd pulse via its contact via a Switching diode and the voltage divider kept in the holding voltage range. Through a The storage relay is triggered by a pulse equal to the operating voltage on the reset input discarded, the opening contact of the storage relay interrupts the power supply of the coupling relay and this also drops out without applying voltage to the counter input or- exit reached. The protective gas contact relay coils are extinguished by extinguishing diodes, However, they can be replaced by capacitors to dampen the switching speed can.

If the function output is not required, the upstream Coupling diodes are omitted and the control input is not required, the control diode can to the counter input are omitted.

The technical and economic effects are in the use of only two inert gas contact relays each with one winding and one normally open contact, of which the contact of the storage relay only switches the current caused by the load of the function output and by connecting the coupling relay winding in parallel to the voltage divider resistor arises, with the relay binary counter according to the invention, less than 10% of the nominal switching current the inert gas contacts and the contact of the coupling relay are de-energized. Farther are used for relay contact functions in terms of cost, volume, reliability and service life the cheaper switching diodes are used.

In addition, the relay binary counter works with unsorted protective gas contact relays a building regulation and the functional utilization of the tightening-waste ratio an operating voltage fluctuation of + 30%.

The invention will be explained in more detail using an exemplary embodiment. The circuit of Fig. 1 shows the relay binary counter-the busbars of a counting chain are applied to direct voltage, about 120 - 150% of the relay nominal voltage. To the Binary counter input Ze, a pulse is placed at the level of the plus potential, thereby wim the excitation winding of the storage relay d1 via the coupling diode n1 and the switching diode n2 and the sub-resistor r2 connected to voltage.

At the same time, via the switching diode n3 and the voltage divider resistor r2 the sub-resistor r3 is assigned a voltage that is approximately the difference in the operating voltage to the wrong voltage of the coupling relay d2. The contact of the storage relay dl closes, brings the storage relay dl into self-holding via the switching diode n4, applies voltage to output F via the end coupling diode n6 and feeds it via the switching diode n5 the Excitation winding of the coupling relay d2, thereby reducing the voltage drop at the sub-resistor r3 increased and the voltage remaining in the field winding is safely in the fault voltage range. If the pulse at input Ze is terminated, it is not applicable the current across the voltage divider resistor r2, the voltage drop across the sub-resistor r3 decreases, the voltage component across the excitation coil of the coupling relay d2 increases the response voltage and contact d2 closes. If a second impulse is sent to the When the counter input Ze is applied, it is activated via the closed coupling relay contact d2 immediately passed to the output Za, via the switching diode n7 the sub-resistance rl of the storage relay dl supplied the positive potential of the second pulse and thereby dl thrown off. Output F is de-energized. About the diodes n1 and n3 and the Voltage divider resistance r2 is fed back current to the sub-resistance r3, so that now the voltage drop is the difference between the operating voltage and again Holding voltage (corresponds approximately to the fault voltage) and via the switching diode n8 is held for the duration of the second pulse of the coupling relay d2.

If the relay binary counter is to be set, input S Plus potential applied, via the switching diode n2 and the lower resistor r1 the storage relay dl excited.

Contact dl closes and sends the L signal to output F via n6. As with the counting pulse, the coupling relay d2 is blocked for the duration of the control pulse. The input Ze and the output Za are de-energized by the diodes nl, n7 and n8 If the relay binary counter is to be cleared, the plus potential is applied to the Input L placed, thereby throwing off the storage relay dl and the power supply of the coupling relay is interrupted via the opening contact dl and the switching diode n5. Diodes n9 and n10 are used to cancel the self-induction voltage of the relay coils switched, but can also be used to reduce the switching speed of the relay be replaced by capacitors.

Claims (3)

Patent claims 1. Relay binary counters, especially for push gas contact relays for Use in electrical controls and regulations for pulse counting or binary scaling a pulse train, characterized in that a protective gas contact relay with a Winding and a normally open contact as a storage relay (di) by a 1st pulse at the level of the operating voltage via the counter input (Ze) or the control input (S) is brought into latching mode and the memory function is fed to output (F) will, door. the duration of the 1st pulse a second protective gas contact relay with one Winding and a normally open contact as a coupling relay (d2) through one of the inputs (Ze or S) fed from the voltage divider (r2, r3) and from the contact of the storage relay (d1) is kept in the fault voltage range via a switching diode (n7) and not can switch until after the end of the 1st pulse due to the omission of the cross current Via the voltage divider resistor (r2) the relay (d2) in the range of its response voltage comes and with its normally open contact (d2) the counter input (Ze) with the counter output (Za) couples through a 2nd pulse applied to the counter input (Ze), which is transmitted via the closed contact (Za) is present, via the switching diode (n7) the storage relay dropped * the coupling relay (d2) but for the duration of the 2nd impulse over its Contact (d2), via which switching diode (n8) is kept in the holding voltage range, The memory relay is triggered by a pulse equal to the operating voltage on the reset input (L) (dl) is thrown off, the opening contact (d1) the power supply of the coupling relay (d2) interrupts and this also drops, without the voltage to the counter or outputs reached. # of the coupling relay (d2) instantaneously at the output of the counter 2. Relay binary counter according to Claim 1, characterized in that the Lönch diodes (n9 and n10) replaced by capacitors to dampen the switching speed will. 3. Relay binary counter according to claim 1 and 2, characterized in that that the coupling diode (n6) when the function output (F) and the coupling diode are omitted (n1) is not required if the control input (S) is omitted.