SU1091340A1 - Time relay - Google Patents

Description

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The invention relates to devices providing an adjustable time delay for switching on and off of the load and used in automation equipment for performing various functions.

Time relays are known that contain an RS master circuit, an input amplifier on a transistor connected according to a common emitter circuit, a parametric voltage regulator on a resistor and two series-connected zener diodes, an output amplifier h, an actuator; The emitter of the transistor of the input amplifier is connected to the common connection point of the zener diodes of the voltage stabilizer 11.

However, in the known time relays, after the formation of the load on-load time, the load is under a long period of time, which ultimately leads to a decrease in the reliability and service life of the time relay and an increase in the current consumption. At the same time, in the automation devices, the voltage is subject to quite stringent requirements, for example, if the load of the time relay are electromechanical polarized switches, then the time spent under the voltage of their windings ezhit in the range 5-30 ms.

A time relay is known which contains a parametric voltage regulator, a time master circuit consisting of a power source of a current generator and a capacitor connected in series between the buses, the output of which is connected through a threshold element on a transistor with a divider in the emitter circuit to the input of a switching element on a transistor with a load between the power supply tires 23.

However, in the device prototype after switching on the load, all elements of the circuit remain under voltage and, consequently, the current consumption increases, the device life and reliability are reduced. In addition, the circuit does not allow short-term load switching; this requires additional circuit solutions.

The purpose of the invention is to improve the accuracy of the time delay for disconnecting and reducing the current consumption. To achieve this goal, a time relay containing a parametric voltage regulator, a time master circuit consisting of power supply of the generator and a capacitor connected in series between the buses, connected through the first threshold element to the input of the switching element with a load connected in series between the tires of the power source; a second threshold element is introduced, the commuting terminal A sensor and two isolating diodes, the first isolating diode being turned on during the master circuit between the output, the current generator and the input of the first threshold element, the second isolating diode between the generator output and the input of the second threshold element, connected between the power supply buses, switching a capacitor is connected between the input of the second threshold element and the connection point of the switching element and the load.

The drawing shows the electrical circuit of the time relay.

The time feae contains key 1, a parametric voltage regulator on a resistor. 2. and a zener diode, 3, a resistor 4, a diode 5, a resistor 6, which form a current generator with a resistor 7 and a transistor 8, and a capacitor 10 is connected to the output of the current generator through the second power supply via the first decoupling diode 9 between the power supply buses. The connecting diode 11 is connected to the second threshold element on the unijunction transistor 12 and resistor 13. A switching capacitor 14 is connected to the input of the second pore element on transistor 12. Through resistors 15 and 16 between the power supply buses is connected the first threshold elec ent unijunction transistor 17, whose output is connected to the control input of the thyristor switching element 18 to a load 19, which is connected parallel to the diode 20 to avoid ejection by actuation load, if it is used as a winding of the electromagnetic relay.

The time relay works as follows. 310 When key 1 closes, capacitor 10 begins to charge through resistor 7, decoupling diode 9 and current generator at transistor 8. Condenser charge is linear. The capacitor 10 is charged to the voltage determined by the parameters of the Zener diode 3 and the switching voltage of the hybrid threshold thyristor (on the transistor 17, which is the threshold and the thyristor 18, which is the switching element). After this, the switching of the thyristor 18 takes place, which includes the load 19. Thus, the time delay for switching on the load is formed. Before turning on the thyristor 18 and the load 19, the capacitor 14 is not charged. After the thyristors 18 are turned on, the w-capacitor 14 starts through the resistor 7, the current generator on the transistor 8, expanding the diode 11 and open the thyristor 18. The capacitor 14 is charged to the switching voltage of the unijunction transistor 12. After this the capacitor 14 through the emitter-base transition of the transistor 12 is inversely applied to the thyristor 18, as a result of which the thyristor 18 is turned off and disconnects the load 19. Thus, the formation of the shutdown to turn on the load 19 is carried out current transistor 8 and capacitor 10, and the formation of the pulse duration during which the load is in the on state, is carried out using the same current generator, a threshold device on the unijunction transistor 12 and switching capacitor 14. Introduction to the time relay circuit the threshold element on the unijunction transistor and the switching capacitor allowed, without introducing additional automation devices into the circuit, to disconnect the load after forming the time delay, s reduce current consumption and increase shutter speed accuracy.

Claims (1)

(.57) TIME RELAY containing a parametric voltage regulator, a timing circuit consisting of a current generator and a capacitor connected in series between the buses of the power source and the capacitor, the output of which is connected through the first threshold element to the input of the switching element with a load, connected in series between the buses of the power source , characterized in that, in order to improve the accuracy of the delay time for shutdown and reduce the current consumption, it introduced a second threshold element, a switching capacitor and two p coupling diodes, the first decoupling diode connected during the back-to-back circuit between the output of the current generator and the input of the first threshold element, the second decoupling diode connected between the output of the current generator and the input of the second threshold element connected between the buses of the power source, the switching capacitor is connected between the input of the second threshold element and connection point of a switching element and load.