SU843250A1 - Relay counter - Google Patents

Description

(54) RELAY COUNTER

I:,. , The invention relates to a pulse technique and a widget used as a pulse counter, a switch, or a frequency divider in various devices and devices of measuring equipment and electrical automation. A scaling device is known that contains a relay with switching contact groups, diodes, resistors, capacitors til. A disadvantage of this device is complexity. A pulse counter is known, which contains a relay with switching contact groups, a power bus of even and odd bits and a semiconductor diode 2. Its disadvantage is that the reliability of the function is not high enough. The purpose of the invention is to increase the reliability of the operation of the device. This is achieved by the fact that in a relay counter containing power buses, relays with closing and switching contact groups in each category, the first winding terminal of which is connected to one of the contacts of its closing contact group, and in all bits except the first one the closing contact of the first switching contact group of the previous relay, a chain in which the opening contact of the first switch contact group of each relay is connected to the relay contact of the first switching contact group the relay, except for the latter, as well as the chain1 (in which the disconnecting contact of the second switching contact group is connected to the switching contact of the second switching contact group of the preceding relay, except for the first, the second contact of the closing contact groups of all relays are connected to the first power supply bus, the closing contact the second switching contact group of each relay, except the first, is connected to the second. winding of the previous relay, which all relays are connected through a resistor to the second power bus, and about neighboring windings, relays through various resistors, a switching contact of a switching contact group. The first relay is connected to the closing contact of a newly introduced control switching contact group, the switching contact of which is connected to the first power supply secret, and the disconnecting contact is connected to the switching contact of the last contact group relay. In addition, in the relay counter, the opening contact of the second switching contact group of the second relay can be connected to the first terminal of the winding of the first relay. Figure 1 is a schematic diagram of the proposed relay counter; Fig. 2 shows a second variant, its embodiment. In a relay counter (Fig. 1, containing power buses 1 and 2, relays 3-1, 3-2, ..., 3-4 ... with a closing 3-1-1, 3-2 -, ... , 3-4-1 and switching 3-1-2, 3-2-2, 3-2-3, ..., 3-4-3 contact groups in each bit the first output of which winding is connected to one of the contacts its closure contact group, and in all bits, except the first, to the closing contact of the first switching contact group of the previous relay, a chain in which the break contact of the first switching contact group 3-1-2, 3-2-2, 3- 3-2 of each "relay 3-1, 3-2, 3-3 is connected respectively to the switching contact the one of the first switching contact group 3-2-2, 3-3-2. of the subsequent relay, except the last one, as well as the chain in which the break contact of the second switch of the contact group 3-4-3, 3-3-3 is connected to the switching contact of the second the switching contact group 3-3-3, 3-2-3 of the previous relay, except for the first one, the second contacts of the closing contact groups 3-1-1, 3-2-1, ..., 3-4-1 all relays are connected to the power bus 1, I hold the 1st contact of the second switching contact group 3-2-3, 3-3-3 ... each relay 3-2, 3-3, 3-4, except the first one, is connected to the second terminal winding ki of the previous relay 3-1, 3-2, 3-3, which for all relays is connected through a resistor 4-1 to 4-4 to the power bus 2, and the windings of the neighboring relays through various resistors, switch 1) Cy switch contact contact group 3-1-2 relay 3-1 is connected to the closing contact of the newly introduced control switching contact group 5, the switching contact of which is connected to the first power supply 1 pin, and the breaking contact is connected to the switching contact of the second switching contact group 3-4-3 of the last relay 3-4. The device works as follows. The counter is started by pressing button 6, which connects the winding of the relay 3-1 to the first power bus I. Relay 3-1 is self-blocked by contacts 3-1-1 and prepares the switching on of relay 3-2 via the make contacts of the first switching contact group 3-1-2 . When a pulse is applied, the operation of the control switching contact group 5) the relay winding 3-2 through the closing contacts of the control switch switching contact group 5 and the first switching contact group 3-1-2 relay 3-1 is connected to the bus 1, while the windings of all subsequent relays de-energized. Relay 3-2 self-blocks through the contacts of its closing contact group 3-2-1, prepares the switching on of relay 3-3 through the closing contacts of the switching contact group 3-2-2 and disabling the relay 3-1 closing contacts of its second switching contact group 3 -2-3. At the end of the pulse (return of the contacts of the control switching contact group 5 to the initial state), the voltage from the winding of the relay 3-1 is removed, since the second terminal of the winding is also connected to bus 1 G through the closing contacts of the second switching contact group 3-2-3 and the opening contacts of the third switching contact groups 3-3-3, 3-4-3 of all subsequent relays of the relay and the control switching contact group 5). Thus, after the end of the first pulse, only relay 3-2 is turned on. Similarly, after each subsequent one. the pulse turns on the next-bit relay. Resetting the counter after the last relay triggers by resetting the power.

Resistors 4-1, 4-2, 4-3, 4-4 prevent the power supply buses 1 and 2 from short-circuiting through the closing contacts of the third switching contact groups and the breaking contacts of the control switching contact group 5 between the pulses. Number of ballast resistors, 5 ditch does not have to be equal

the number of counter bits, since the relays can be combined into groups and the second outputs of the windings of all the relays of one group can be connected to bus 2 via one common resistor. However, the relays of two adjacent bits should not belong to the same group; otherwise, when the second relay of the group trips, it de-energizes, together with the previous one, its own winding. With any number of azradov number of groups can be reduced to an arbitrary number, but not less than two ..

The counter whose circuit is shown in FIG. Requires starting after each power up. However, if you connect the disconnecting contact of the third switching contact group 3-2-3 of the second relay 3-2 to the first terminal of the winding of the first relay 3-1, the resulting circuit automatically starts after energizing busses 1 and 2, as in this case in the initial position, the winding of the relay 3-1 is connected to bus 1 through the disconnecting contacts of the third switching contact groups of all subsequent relays and the control switching contact group 5. The circuit can be reset to the initial state after the last relay has been activated Automatically, without power reset. To do this, enter the auxiliary relay 3-5, the first winding terminal of which is connected to the 3-4-4 contacts of the second contact group of the last 3-4 relay, as well as through its contacts of the contact group with the power bus 1 and the second end is connected to the power supply 2. The switching contact of the second closing contact group 3-5-2 of the auxiliary relay 3-5 is connected to the second output of the winding of the relay 3-4 last discharge, and the closing contact of the second closing contact group 3-5- 2 relays 3-5 are connected to the breaker tact control switch 5 of the contact group, the winding supply circuit B.

Auxiliary relays 3-5 sequentially include additional disconnecting contacts of any relay except the first and last, for example, the closing contacts of the switching

by starting and resetting it is annular and can be used as

frequency divider with coefficient. division, equal to the number of bits of the counter.

The control pulse of the counter, the circuit of which is shown in Fig. 1, is formed by switching the control contact group 5,

Claims (2)

Fig. 2 shows a variant of the meter circuit with two ballast resistors, automatic start and reset, and electric pulse control. In the meter, introduced the auxiliary relay 3-5 with closing contact groups 3-5-1 and 3-5-2 and control group 3-2-1. relay 3-2. A counter, made with an automatic relay 3-6 with a switching switch 3-6-1-1, is fed to the input winding. To disconnect relay 3-5, a third switching contact 3-2-4 relay 3-2 is used. Automatic start of the counter is described above. The resetting of the circuit to the initial state after the last relay has been processed is as follows. The impulse arriving after the relay 3-4 triggered connects the winding of the relay 3-5 to the bus I through the contacts 3-4-2 of the last relay 3-4, the opening contacts of the first switching contact groups 3-3-2, 3-2 -2, 3-2-1 of all previous relays 3-3, 3-2, 3-1 and the closing and switching contacts of the control switching contact group of the control relay 3-6. Relay 3-5 is self-blocking through the contacts of the closure contact group 3-5-1 and prepares the relay to trip by 3-4 contacts of the closure contact group 3-5-2. After returning the JKOHTacts of the controlling switching unit 3-6-1 of the controlling relay 3-6 to the initial state, the winding of the relay 3-4 is bridged by the contacts of the closing contact group 3-5-2 of the auxiliary relay 3-5 and the disconnecting and switching contacts of the control The second switching contact group 3-6-1 of the control relay is 3-6. The contact of the relay 3-4 returns to the initial state, and the first output of the winding of p. 3-1 turns out to be connected to w 1, i.e. counting cycle 1 begins first. When the next pulse arrives, relays 3-5 are switched off by the activated contacts of the switching contact group 3-2-4 of relay 3-2, and relay 3-5 is ready for operation. The advantage of the proposed circuit is its reliability, which is provided both by simplicity (the circuit contains only relays and resistances) and is not critical to most of the relay parameters. While ensuring the pulse duration is longer than the time of the relay and the pause between pulses, which is longer than the release time of the relay, the meter works reliably with any sequence of triggering and releasing the contacts of each relay. This allows the implementation of a counter circuit for highly reliable and fast acting reed relays, since the spread of response and release times of reed switches of one relay does not affect the operation of the circuit. The proposed device can be used in conditions of high and low temperatures in a wide range of temperatures, since it does not contain containers and semiconductor elements. Claim I. Relay counter, power bus decontamination, relay with closing and switching contact group, mi. In each category, first output, windings of which are connected to one 08 of the contacts of their closing contact group, and in all bits except first, and to the closing contact of the first switching contact group of the previous relay, a chain in which the opening contact of the first switching contact group of each relay is connected to the switching contact of the first switching contact group subsequently About the relay, except for the last one, as well as the chain in which the disconnecting contact of the second switching contact group is connected to the switching contact of the second switching contact group of the previous relay, except for the first one, characterized in that, in order to increase the reliability of operation, the second contacts of the closing contact groups of all the relay is connected to the first power bus, the closing contact of the second switching contact group of each relay, except the first one, is excluded to the second winding of the previous relay, which all relays are connected via a resistor to the second power bus, and the windings of neighboring relays are via different resistors, the switching contact of the switching contact group of the first relay is connected to the closing contact of the newly introduced control switching contact, the switching contact of which is connected to the first power bus, and the disconnecting the contact is connected to the switching contact of the second switching contact group of the last relay, 2. Relay counter according to claim 1, characterized in that the disconnecting contact of the second relay The switching contact group of the second relay is connected to the first winding of the first relay. Sources of information taken into account in the examination-s 1. Authors certificate of the USSR No. 284103, cl. H 03 K 23 / 03,10.06.69. 2. USSR author's certificate number 523531, cl. H 03 K 23 / 255,04.0.74. L-1 I I I U-