SU535733A1 - Time relay - Google Patents

Description

one

The invention relates to contactless electro-automatic elements and can be used in control devices and protection of various technological installations, in particular electrothermal ones.

The relay relays on semiconductor and magnetic elements are known, which contain a store of electrical or magnetic energy, which are switched on by a discrete control signal and are equipped with special devices for resetting the relay to its initial state 1, 2, 3.

Also known are semiconductor time relays, for example, on two-base diodes, built on the principle of counting pulses generated by relays exceeding its input signal with a predetermined threshold value 4.

A characteristic feature of these relays is the presence at the input of two threshold elements - for the trigger and the reset - with dependent threshold settings. The first of them works when the input signal exceeds a predetermined threshold value, after which the countdown of the time to actuation of the actuator begins. The second element ensures that the relay returns to its original state if, during the time countdown, the signal at the input of the relay decreases to a value less than its threshold. However, such relays are not sufficiently reliable and accurate, which is caused by the need to have two dependent threshold settings, close, in magnitude. At this, the smaller the difference in settings is required, the lower the reliability of the relay due to the POSSIBLE unstable parameters of the radio components of the threshold elements (resistors, capacitors, transistors) when changing

environmental conditions — temperature, humidity, etc. An increase in the difference in thresholds leads to a decrease in the counting accuracy. In addition, the presence of two settings complicates the configuration of the relay as a whole.

To increase reliability and accuracy of operation (the proposed time relay is equipped with a thyristor, the control electrode of which is connected to the 1K output of the trigger threshold element, and the anode is connected to the source

supply through a resistor, the time of the master circuit of the resetting threshold element, and the value of this resistor is chosen such that the response time of the resetting threshold element is longer

the duration of the pause between the output pulses of the trigger threshold element. At the input of the relay is set lish trigger threshold element. The reset threshold element is connected to the output of the triggering one and is controlled by it. There are no requirements for the trigger threshold value of the resetting threshold element, since it is controlled by pulses equal in magnitude to the voltage of the relay. The interaction of the triggering element with the resetting element is carried out so that the on state of one element corresponds to the closed state of another. In general, the time relay has only one threshold, the same for both elements. Any changes to the setpoint of this threshold, including those associated with the instability of the parameters of the radio terminals of the circuit, do not lead to the triggering of the threshold elements, thereby eliminating the possibility of false alarms or resetting the relay, i.e., increasing its operational reliability and accuracy. Simplification and maintenance of the relay is also simplified.

The drawing is a functional diagram of the described time relay.

The relay contains triggering 1 and resetting 2 threshold elements with pulse output, shaper 3 counting pulses, stabilized in duration and amplitude, drive 4 counting pulses and actuator 5. Between the output of the triggering element 1 and the input of the resetting element 2, auxiliary thyristor b is connected, the anode of which is connected to a DC power source (terminal 7) through a resistor 8 is the input time of the master C-circuit of the resetting element 2. Elements 1, 3, 4 and 5 form a circuit that takes time nor from the arrival of input 9 of the relay (input of the triggering element 1) of the signal exceeding the threshold value setpoint until the actuator 5 is turned on. Resetting element 2 provides the accumulator 4 discharge, i.e. the relay returns to its original state after reducing the input command signal below the Trigger threshold setting.

In one way, the relay has two characteristic operating states, differing in the level of the input command signal relative to the setting of the threshold.

In the mode when the input command signal is below the trigger threshold, the triggering threshold element 1 is closed, i.e. there is no voltage at its output. When this happens, the countdown time. The thyristor 6 is also in a closed CONDITION, because there is no sending signal at its control electrode 10 connected to the output of element 1. Condenser And input charging voltage from the power source through resistor 8 to the element trigger voltage 2. The operation of the element 2 leads to the discharge of the accumulator of 4 counting pulses through it, if at the last one any voltage was replaced by this time.

When the input command signal at input 9 exceeds the response threshold at the output of Trigger Element 1, pulses appear, the frequency of which is determined by the parameters of its input charge / C-circuit. These pulses are converted by shaper 3 into counting pulses of the same frequency, but stabilized in duration and amplitude by which drive 4 is charged. With a certain number of counting pulses, the voltage on drive 4 is sufficient to trigger the actuator 5. This completes the timing cycle.

In addition, the output pulses of the triggering element 1 periodically open the thyristor 6, each time the capacitor 11 is discharged from the input charging / C-circuit of the resetting element 2, which prevents the latter from triggering. The parameters of the input circuits of the elements 1 and 2 are chosen so that the pause between the output pulses of the element I, which determines the interval of the closed state of the thyristor 6, is the duration

insufficient for the charge of the capacitor And the input U of the C-circuit of element 2 to the magnitude of the threshold cpa |

To periodically open and close a thyristor with 6 pulses along its circuit

the control electrode 10 and at a constant voltage on the anode, the current through the thyristor in the open state should not exceed the value of the holding current. This is achieved by appropriately selecting the resistance of the resistor 8 in the anode circuit of the thyristor 6.

The use of the proposed time relay makes it possible to increase the reliability of its operation and simplify the control devices jf to protect various technological devices.

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Claims (4)

1. “Elements of logical magnetic type ELM, TsBTI, Kalinin, 19G5. 2. Avt. St. No. 420005, M.C. H 01N 37/18, 1974. 3. “Transistor elements of the Logic-T series for protection devices, INFORMELECTRO catalog 07.31.05-71. 4. A.E. Olsevich and V.V. Dolgikh. “Timed Relay Bodies on Double-Base Diodes.” Proceedings of the Novocherkassk Polytechnic Institute, vol. 223, “New semiconductor elements in automation devices, NPI, 1970.