SU424121A1 - DEVICE FOR THE CONTROL OF TIME PARAMETERS OF THE RELAY - Google Patents

Description

one

The invention relates to devices for monitoring time parameters of relays in determining their speed and is intended for use in automation and telemechanics. The device can be used to control the time intervals of operation, release and movement of the contacts of each relay from a group of enterprises that make and use relay equipment.

Devices are known that make it possible to determine the parameters of the relay based on measuring the time intervals of the operation, release and movement of the contacts of each relay separately, which necessitates the processing of measurement results, requires a longer testing time and reduces the reliability of control.

The aim of the invention is to create a device that allows to shorten the time for testing and increase the reliability of monitoring the time characteristics of the relay to meet their desired values. This is achieved by the fact that relays set under the same operating conditions, due to the effect of status, work non-simultaneously. Working faster than other relays, with its normally open contact, breaks the control circuit of the electronic key formed by the series connection of the break contacts of the switching group of monitored relays, which leads to the disconnection of the power of their windings. At the same time, this relay is blocked by its closing contact, which at the same time allows detecting the fact of its operation with the help of the indicator lamp and provides connection of an additional relay corresponding to the activated one. After determining the fastest relay from the monitored group and, if necessary, its temporal characteristics using measuring and recording equipment, to the appropriate additional relay (automatically or manually)

a signal is given to trigger it. This relay is blocked, and its disconnecting contact breaks the power day of the winding of the previously triggered relay from the controlled batch, which is excluded from further tests, and the circuit is put on standby to cycle the measurement of the time characteristics of the remaining relays in a strict sequence.

The drawing shows the scheme of the described device.

The device consists of a group of tested relays from 1 - 1 to 1-N, installed in the corresponding sockets on the panel. The design of the sockets depends on the type of relay and should provide a definition of the temporal characteristics of each of the t switching contacts (from 1 -1 to 1 -1t), (from 1-2i to 1-2 ™) ..., (from 1-NI to l -Nm) controlled relays. The required number and switch contact is selected with 2i-2m toggle switches. The power supply of the relay coils from 1 - 1 to 1-N is controlled by an electronic switch 3, which is very fast. In the open state, it provides the connection of the supply circuit of the windings of the monitored relays to the bus (+) of the source of stabilized voltage. This circuit is broken when one of the tested relays is triggered, since the positive signal coming through the circuit of the series-connected disconnecting contacts disappears, which ensures the locking of key 3. This triggered relay due to the inertial properties of its mechanical system and the presence of counter-e , dc, is blocked through its normally open contact. The use of a stabilized voltage source makes it possible to carry out the process of testing the relays under the same conditions in the event of the operation of other circuit elements. Diode groups eliminate the relationship between circuit elements and deplete the necessary continuity of their operation. Additional relays from 4-1 to 4-L are designed to exclude triggered relays of the co-monitored batch from the subsequent measurement process, which ensures that the circuit is ready for a new measurement cycle. The measuring apparatus includes a pulse generator 5, which gives out pulses of the required frequency (depending on the required counting accuracy) to pulse counters 6, 7 and 8, which are designed to determine the corresponding release times, tripping times and contacts of the tested relays. Digital printer 9 provides registration of measurement results. The device can operate in both manual and automatic mode, the choice of which is determined by the position of the toggle switch 10. In the automatic operation mode of the device, all circuit elements participate. In the manual mode, each work cycle is determined by pressing the “AND. In this case, if the toggle switch 12 is turned on, the measurement results are recorded with a digital printing device. If the toggle switch 12 is not turned on, the device allows determining the speed of the monitored relays using indicator lights from 13-1 to 13-L. The command to start the measurement process and determine the speed of the relay is carried out by a self-blocking button 14 "Start. When the toggle switches 10 and 15 are turned on in the automatic mode of operation of the device (or the toggle switches 12, 10 and 15 in manual mode), positive and negative voltage is applied to the measuring and recording equipment, which provides access to normal operation after the end of transients, the digital printing device 9, Immunator generator 5 and counters 6, 7 and 8. Consider the measurement process of time intervals of operation, release and movement of the contacts / -H of the monitored relays () for t-ro non-switching contact (included tu.bler 2 ;, where) to Mode Auto operation. When the toggle switch 15 is turned on, stabilized supply of the power source via the self-locking button 14 "Start and electronic key 3 is applied to the windings of the tested relays from 1 - 1 to 1-N. Simultaneously, the signal “Zusk arrives at counters 6 and 7 to start counting the time. Since the relays have a different speed of operation, some of them, for example 1- /, will work as nerves and with their opening contact, contact 1-ji will break the value made up of the series connection of the normally closed contacts of the t-th non-switching ground. This will lead to locking the key and powering off the windings of these relays. At a time, the signal “Ston to counter 6” is output through the denial circuit 16, which will record the release time of the closing coitact of the activated relay, and the signal “Start to the counter 8 to start the timing of the motion of the co-tact. Due to inertial SWOIS1V of the mechanical system of the relay and the presence of an opposing emf in the coils of the nh windings, when the power supply is disconnected, the first relay triggered is blocked by its closing contact, through which the power source (+) power supply is connected to the circuit of the corresponding additional relay 4- / and to the indicator light 13- / for visual detection of the relay operation. At the same time, via this contact, a command is issued, Stop to Counters 7 and 8, which record the time intervals of operation and movement of contacts. When all signals "Stop at counters of pulses, coincidence circuit 17," issue the command Print on digital printer 9, which allows to register the number of triggered relays, time and release timeframes and move its co-tacts. On completion of the process of recording the results of the test, the impulse of the positive relay is applied to the winding of the reset relay 18. This relay provides reset of the counters 6, 7 and 8 and the operation of the additional relay 4- /, which is blocked by its contacts 4- / 2 and 4- / 3, and the contact 4- / 1 breaks the supply circuit of the previously activated relay from the co-controlled group. The switching contact 1-ji of the latter returns to the initial state, which allows the testing process to be cyclically performed for the remaining relays. Manual mode, selectable toggle switch. 15 m, allows the entire test process