SU1265877A1 - Time relay - Google Patents

Abstract

The invention relates to contactless electrical apparatus and can be used in automation schemes when it is necessary to obtain a certain time delay for switching the actuating contacts after switching off the power supply voltage. The aim of the invention is to increase reliability. In the time relay, which contains the time setting body consisting of resistor 1, capacitor 2, memory capacitor 3, analogue of a single junction transistor 4, diode 16, resistors 17 and 20, potentiometer-i: pa 18, diode 19, and electromagnetic relay with memory with winding 5, storage capacitor 6, transistor switch 7 with diode 8, resistor 9, diode 11, resistors 12, 13, 15, zener diode 21, the second winding 10 of the relay and capacitor 14 are entered. Duration of voltage application power supply to the winding 10 of the relay is determined by the duration of the open state of the transistor Key 7, which is specified by the charge time of the condensate; S e from: SP 00

Description

p 14i In this relay, in the activated core and enhanced stability, the winding 10 o. flows the relay to the external mechanical com, which ensures reliable holding, 1 slug.

1265877

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The invention relates to contactless electrical devices and can be used in automation schemes when it is necessary to obtain a certain delay in switching the executive contacts after switching off the voltage of the pi.

The aim of the invention is to increase reliability.

The drawing shows a circuit diagram of the device.

The time relay contains the time setting body, performed, for example,

as follows: the time of the driver circuit on the resistor 1, the capacitor 2 and the capacitor 3 of the memory is connected to the control and the emitter terminals of the transistor analogue single junction. Transistor 4, Time setting body can be implemented on other elements, such as integrated circuits. The relay includes a two-winding electromagnetic relay with memory, one and: from the windings 5 of which through the storage capacitor 6 is connected to the power supply bus, transistor 1 with a diode 8 connected by a power circuit in parallel with a chain consisting of a winding 5 of an electromagnetic relay and a storage capacitor 6, a control circuit through a resistor 9 to the output time of the driver. A second winding 10 of the electromagnetic relay is connected between the second power supply bus and the diode 11, one electrode of which is connected to the connection point of the winding 5 of the relay with the power electrode of the transistor switch 7. A resistor 12 is turned on between the electrodes of the diodes 8 and 11. The control electrode of the transistor switch 7 is connected to one power supply bus through a resistor 13, and to the other through successive

connected capacitor 14 and resistor 15.

The composition of the driver time includes a diode 16, after which the time of the driver circuit is connected to the power supply bus, the power supply voltage divider on the resistor 17 and potentiometer 18, the output of which is through the diode 19 and the resistor 20 is connected to the memory capacitor 3. The parametric voltage regulator is made on a current-limiting resistor 15 and a zener diode 21.

The time relay works as follows.

When a supply voltage is applied to its input under the action of a current flowing through the circuit: winding 10, diode 11 transistor switch 7, diode 8, the electromagnetic relay operates. In this case, the open state of the transistor switch 7 is provided under the influence of the current of the charge current of the capacitor 14 flowing through its base circuit. The capacitor 2 is charged through the resistor 15 and the diode 16 to a voltage equal to the stabilization voltage of the Zener diode 21, and the capacitor 3 through the potentiometer 18, the diode 19 and the resistor 20 to the voltage determined by the position of the potentiometer slide 18, After charging the capacitor 14, the transistor the key 7 is closed along the circuit: the winding 10, the diode 11, the winding 5 charges the capacitor 6,

and the circuit: winding 10, resistor 12, diode 8 current flows. When the supply voltage is disconnected, the electromagnetic relay remains in the tightened position due to its memory. The capacitor 2 begins to discharge to the resistor 1, and the capacitor 3 maintains an almost constant voltage level. By reducing the voltage on the capacitor 2 to the magnitude of the voltage

the capacitor 3 turns on an analogue of a single junction transistor 4 and the voltage of capacitors 2 and 3 is applied to the base of transistor switch 7 through resistor 9. Transistor switch 7 opens, which causes capacitor 6 to discharge into winding 5 of electromagnetic relay. The discharge current of the capacitor 6 creates ampere turns opposite to the ampere turns of the winding 10, which triggered the relay and demagnetized its magnetic circuit. The relay is turned off, I

In the proposed device, in the switched on state of the supply voltage, the winding 10 is flowed around the current, which ensures reliable holding of its core and high resistance of the relay to external mechanical effects,

At the moment the relay is triggered, a total supply voltage is applied to its winding 10. The duration of its application is determined by the duration of the open state of the transient switch key 7, which is specified by 1 charge time of the capacitor 14, E due to the fact that the capacitor 14 is included in the basic circuit of the transistor, the necessary duration of the flow of current of the relay is reached

small dimensions of this capacitor.

Claims (1)

Invention Formula A time relay containing the time of the master, an electromagnetic relay with memory, a transistor switch connected by a power circuit parallel to the chain consisting of the first winding of the electromagnetic relay and a storage capacitor, the control circuit — to the output of the time of the driver, the first semiconductor diode connected. electrode to the junction point of the transistor KLUCH5 with the first winding of the relay, the current limiting resistor, the second semiconductor diode connected between the emitter of the transistor switch and the common busbar, Finding that, in order to increase reliability, a second relay winding is inserted into it, connected between the power supply bus and another electrode of the first diode, connected via a current limiting resistor with a power switch of the transistor switch, and a capacitor connected between the control circuit of the transistor switch and the bus feeding time of the master organ.