SU983803A1 - Timer - Google Patents

Description

The invention relates to electrical engineering and can be used in automation devices. /

Known time relays containing an electromagnetic relay, a thyristor, a transistor, diodes, capacitors, and tl3 resistance filters.

The disadvantage of such time relays is low reliability and stability when operating in conditions of high humidity, temperature, and time.

The closest to the invention to the technical essence is an electronic time relay containing an electromagnetic relay, the winding of which is connected to the terminal of a voltage source, a series circuit of a resistor and a zener diode connected to the same terminal of a voltage source, as well as two transistors of different conductivity type , the collector of the first of which is connected to the base of the second, a capacitor, a diode, and four resistors t2.

A disadvantage of the known time relays is the low reliability and stability of the time when operating under conditions of humidity, temperature and time, which is caused both by the high-resistivity time of the driver circuits and the change in the parameters of the capacitor in different climatic conditions and time.

The aim of the invention is to improve the reliability of work and the stability of time delay with changing climatic conditions and in time.

to. The goal is achieved by the fact that in a time relay containing an electromagnetic relay, the winding of which is connected to the terminal of a voltage source, a series circuit of a resistor

15 and a zener connected to the same terminal of the source voltage, two transistors of different types of conductors, the collector of the first of which is connected to the base of the second, a capacitor,

20 diode, four resistors, two variable resistors, two thermocouples | wih elements, a thyristor, with the collector of the second transistor connected to the base of the first transistor

Claims (2)

25 and through the second resistor with its emitter, which is connected to the emitter of the second transistor and the second output of the zener diode, the second output terminal of the electromagnetic relay winding and the common connection point of the diode and capacitor through a series circuit of a capacitor, a diode and a disconnecting contact group the thyristor control electrode through the third resistor is connected to the point of the diode's diode contact with an electromagnetic relay group, the winding of which is shunted by the fourth resistor, the connection point of the Zener diode with the first resistor is connected to the base of the second transistor through the first variable resistor and to the emitter of the first transistor through the second variable resistor connected in series and the first thermo-dependent element with a positive temperature coefficient of resistance and having a thermal link with the second thermo-dependent element 1ent with Negative temperature coefficient of resistance connected parallel to the base-emitter transition of the second transistor. The drawing shows a circuit diagram of a time relay. The time relay contains an electromagnetic relay 1, the winding of which is connected to terminal 2 of a voltage source, a series circuit of resistor 3 and zener diode 4, connected to terminal 2 of a voltage source, and transistors 5 and 6 of different conductivity type. The collector of transistor 5 is connected to the base of transistor 6, and the collector of transistor b is connected to the base of transistor 5 and through a resistor 7c by its emitter, which through a series circuit of capacitor 8, diode 9 and the closure contact group 10 of electromagnetic relay 1 is connected to the emitter of transistor b and the second output of the Zener diode 4. Between the second output of the winding of the relay 1 and the common connection point of the diode 9 and the capacitor 8, the thyristor 11 is turned on, the control electrode of the thyristor through a resistor 12 is connected to the connection point of the diode 9 with the contact group 10 electromagnetic relay 1 and. terminal 13 source. The relay coil is shunted by a resistor 14. A zener diode 4's connection point with a resistor 3 is connected to the base of transistor 6 via a variable resistor 15 and to an em A tera of transistor 5 through a series-connected resistor 16, variable resistor 17 and a thermal-dependent element 18, which has a thermal connection thermo-dependent element 19 connected in parallel with the base transition emitter of the transistor 6. The leads of the resistor 16 are connected to. control cells 20 and 21, and the short-circuit contact of the contact group 10 is connected to the output terminal 22. The time relay operates as follows. When supplying voltage and power, Lemma 2 VI 111, it goes through a resistor 3 to the Zener diode 4, forming a stable voltage supplying power to the time relay elements. Due to the current through the variable resistor 15, the transistors 5 and b are open and through the thermo-dependent element 18, which has a positive temperature coefficient of resistance, a current flows, the value of which is limited by the variable resistor 17. The thyristor is closed and the winding is de-energized. Due to the power released in the thermo-dependent element 18, its temperature and the temperature of the thermally coupled thermo-dependent element 19 associated with it increases. In this case, the resistance of the thermo-dependent element 19 having a negative temperature coefficient of resistance, and the base current of the transistor b are reduced. At a certain temperature of the thermodependent elements 18 and 19, the transistors 5 and b are closed, the current through the thermodependent element 18 is stopped, after which the thermodependent elements 18 and 19 are cooled, the capacitor 8 is charged through diode 9 to a voltage on the Zener diode 4, and the resistance and current increase the bases of the transistor b before the transition of the transistors 5 and b abruptly to the open state. In this case, capacitor B is discharged along the cathode control electrode circuit of the thyristor 11 - resistor 12. The thyristor 11 opens, current passes through the winding of relay 1, the relay operates, the time delayed voltage is applied to output terminal 22 at the same time as the zener diode is de-energized 4 and the elements connected to it. Due to the positive temperature coefficient of resistance of the thermo-dependent element 18, with increasing medium temperature, the current and heating power of elements 18 and 19 decrease, and with lowering the temperature of the train, it increases, which reduces the influence of the medium temperature during the holding time. Due to the positive temperature resistance of the thermo-dependent element 18 and the thermal connection with the thermo-dependent element 19, the heating time of the element 19 increases significantly, which is equivalent to an increase in the thermal time constant of the setting element, without increasing its dimensions, which is always associated with the need to increase the heating current and power. The low residual time of the elemental elements completely eliminates the influence of the insulation resistance of the elements when operating under conditions of elevated humidity and ambient temperature. Switching on resistors 7, 12 and 14 ensures reliable operation of the relay in a wide range of temperatures, eliminating the possibility of false alarms and significantly reducing the capacitance of capacitor 8. From the low-resistance resistor 16 through terminals .20 and 21 to the test bench, the time relay is fed control voltage, used for fixing the stopwatch, the heating time of thermo-dependent elements 18 and 19, which is necessary when setting up and testing the relay. The presence of a parametric voltage regulator built into the time relay allows the use of an unstabilized power source and eliminates the influence on the spread time of the spread within the accuracy of a stable supply voltage occurring when using a non-built stabilized voltage source. Due to the proposed composition and functional connection of the time relay, a significant increase in the reliability of operation and the stability of the time delay under the action of various destabilizing factors are provided. The invention The time relay containing an electromagnetic relay, the winding of which is connected to the terminal of a voltage source, a series circuit of a resistor and a zener diode connected to the same terminal of the voltage source, two transistors of different types of conductor, the collector of the first of which is connected to the base of the second, a capacitor, A diode, four resistors, characterized in that, in order to increase the reliability of operation and stability of the time delay, two variable resistors, two thermal-dependent elements and a thyristor are introduced into it, At the same time, the collector of the second transistor is connected to the base of the first transistor and through the second resistor with its emitter, which is connected to the emitter of the second transistor and the second output of the zener diode between the second terminal of the electromagnetic relay winding the common point of connection of the diode and the capacitor is connected to the thyristor, the control electrode of the thyristor through the third resistor is connected to the point of connection of the diode with the contact group of elec a magnetic relay whose winding is shunted by a fourth resistor, the connection point of the Zener diode to the first resistor is connected to the base of the second transistor through the first alternating resistor and to the emitter of the first transistor through serially connected second variable resistor and the first thermo-dependent element with a positive thermal coefficient of resistance and has a thermal thermal b with a second temperature-dependent element with a negative temperature coefficient of resistance connected parallel to the transition base-emitter of the second transis, torus. Sources of information taken into account in the examination 1. The author's certificate of the USSR 801131, cl. H 01 H 47/18, 16.04.79. 2. For Japan Japan 51-28382, cl. H Oi H 47/18, 1976 (prototype). Have og