SU1195406A1 - Device for delaying release of armature of device,for example,magnetic starter - Google Patents

Abstract

DEVICE FOR DELAYING AN ANCHOR DROPPING, FOR EXAMPLE, A MAGNETIC START-UP, containing a magnetic starter coil, Stop button, Start button, first capacitor, characterized in that, in order to improve the efficiency of the device by improving the energy efficiency of the capacitor, increasing the stability of the exposure time, unclose the switch, and unbend the line, and unbend; , a field-effect transistor, a bipolar transistor, an one-transistor transistor, a dynistor, three diodes, two zener diodes, two capacitors, eight resistors, a potentiometer p, the collector of the bipolar transistor is connected to the cathode of the first diode, the anode of which is connected to the first pins of the Start and Stop buttons; the emitter of the bipolar transistor is connected to one plate of the first capacitor, the anode of the first Zener diode, one output of the first and second resistors, the anode of the second Zener diode, one terminal of the third resistor, one terminal of the second and third capacitors, another terminal of the third resistor is connected to the anode of the dynistor, the cathode of which is connected via the closing contact of the magnetic starter By the output of the Start button and the anode of the second diode, the cathode of which is connected to the first power bus, the second output of the Stop button is connected to the anode of the third diode and one output of the coil of the magnetic actuator, the cathode of the third diode, another output of the coil of the magnetic actuator, the other of the first capacitor, the cathode the first slab of the Zener diode, one pin of the fourth resistor, one pin of the fifth resistor are connected to the second power bus, the cathode of the second zener diode is connected to the other plate of the second capacitor, the other pin is four a resistor, one output of a sixth resistor, a source of a field-effect transistor, the gate of which is connected to a potentiometer slider, one output of which is connected to another output of the fifth resistor, and the other output is connected to another output of the second resistor, the drain of the field-effect transistor is connected to one output the seventh resistor, the other output of which is connected to another plate of the second capacitor and the emitter of the unijunction transistor, one base of which is connected to another output of the sixth resistor and one output of the eighth p ican, the other terminal of which is connected to the base of the bipolar transistor.

Description

1 The invention relates to electrical engineering and can be used in electric drives of various technological installations, in which electric disconnections are not susceptible as a result of a short interruption of power supply. The aim of the invention is to increase the efficiency of the device by improving the energy efficiency of the capacitor, increasing the stabilization of the time delay when unlocking the magnetic starter,. The drawing is given a functional diagram of the proposed device. A delay device for dropping a core, for example, a magnetic starter, contains a magnetic starter coil 1, a Stop -2 button, a Start 3 button, a first capacitor 4, a bipolar transistor 5, whose collector is connected to the cathode of the first diode 6, the anode of which is connected to the first pins of buttons 2 and 3. The emitter of the bipolar transistor 5 is connected to one plate of the capacitor 4, the anode of the first Zener diode 7, one output of the first 8 and the second 9 resistors, the anode the second of the Zener diode 10, to one output of the third resistor 11, one output of the second 12 and a third There are 13 condensers. The other end of the resistor 11 is connected to the anode of the dynistor 14, the cathode of which is connected to the second terminal of the button 3 and the anode of the second diode 16 through the closing contact 15 of the magnetic actuator to the first power supply bus 17. The second pin of button 2 is coeno dinene with the anode of the third diode 18 and one pin of coil 1 of the magnetic starter. The cathode of diode 18, another output of coil I, the other face of capacitor 4, the cathode is stabilizer for 7, one output of the fourth resistor 19 and one output of the fifth resistor 20 are connected to the second power supply bus 2. The cathode of the Zener diode 10 is connected to another plate of the capacitor 13, another terminal of the resistor 19, one terminal of the sixth resistor 22, the source of the field-effect transistor 23, the gate of which is connected to the slider of the potentiometer 24, one terminal of which is connected to another terminal of the resistor 20, and the other from another terminal of the resistor 9, the drain 62 of the transistor 23 is connected to one terminal of the seventh resistor 25, the other terminal of which is connected to another plate of the capacitor 12 and the emitter of the single junction transistor 26, one base of which is connected to another terminal ora 22, and the other - to the other terminal of resistor 8 and one terminal of the eighth resistor 27, the other terminal of which is connected to the base of the bipolar transistors are delay device 5. dropout armature magnetic actuator operates. following way. In the initial position, the voltage of the power source is applied to psh 17 and 21, coil 1 is de-energized, and the magnetic starter is disconnected. When the Start button 3 is pressed briefly, coil 1 is energized by a voltage rectified by diode 16, and when the magnetic starter is turned on through the latching contact 15, distor 14 and resistor 11, the voltage rectified by diode 16 is applied to transistor switch 3, simultaneously charged capacitors 4 and 13 until the voltage stabilizes the Zener diodes 7 and Yu, respectively. The transistor switch is assembled on a bipolar transistor 5, and a pulse generator is assembled on a single junction transistor 26 and on a field-effect transistor 23 used as a controlled resistance. The frequency of the oscillator impulse ™ is determined by the magnitude of the resistance of the channel source-drain of the transistor 23 and resistor 25; The resistance of the channel of transistor 23 is determined by the magnitude of the block voltage applied to its gate through the resistor divider 9, 20 and 22 of the master capacitor 4. The greater the voltage on the timing of the driving capacitor 4, the greater the blocking voltage on the gate of the transistor 23 and the resistance of the channel of the transistor 26 and the smaller the pulse frequency of the generator. The pulses generated by the transistor 26, with a duration determined by the values of the capacitance of the capacitor 12 and resistors 27 and 8, arrive at the base of the transistor 5, the latter, briefly opening, connects the time -

driving capacitor 4 to the coil 1 of the magnetic starter.

In the case of a pulsed discharge, the time of the reference capacitor 4 to the coil 1 in the latter is maintained at a constant current at the level of a current of reliable holding of the core in a raised state. The magnetic starter is blocked by its contact block 15. A diode that shunt the coil 1 serves to maintain a constant current in the coil due to its self-induced EMF during periods of closure of the transistor switch.

In such a state, the device remains until the magnetic starter is turned off with the Stop 2 button or until the power supply source disappears.

When the Stop button is pressed, the power supply circuit of coil 1 rumbles 2 times and the crust of the magnetic actuator disappears without delay. After the Stop 2 button is activated, a pulse occurs — capacitor 4 discharges onto coil 1 to a discharge current equal to coil 1 holding current, which is insufficient for actuator to operate, and after a full discharge of coil detectors 4 and 13, the circuit returns to its initial state.

In the case of disappearance or understanding of the mains voltage to a level at which dynistor 14 does not open, which determines the time reference, the time sets the capacitor 4 to the coil 1 at the generator frequency determined by the voltage on the capacitor 4. With a decrease in the voltage by the time of the driving capacitor 4, the channel resistance of the transistor 23 decreases, therefore, the pulse frequency of the generator increases, and the time driving the capacitor 4 is often connected to the coil 1, and the average current through uschku 1 remains constant and equal to the current reliable retention

core in a tight state. The armature of the magnetic starter remains in an intact state and disappears at the time of the voltage decreasing by the time of the drive capacitor to a value below the holding voltage. The delay time is controlled by resistor 20 i. the magnitude of the blocking voltage at the gate of the transistor 23, and is determined by the discharge time of the capacitor 13 to the pulse generator.

The invention allows efficient use of the energy of the driving capacitor and reduces the power consumption of the network by 4 times, and also ensures high stability of the lag time of the magnetic starter core, since the time lag does not depend on the nature of the voltage variation and power supply, which is achieved by maintaining the stability of the current flowing through the coil of the magnetic starter and equal to the holding current.

Claims (1)

DEVICE FOR ANCHOR DELAY DELAY, FOR EXAMPLE, A MAGNETIC STARTER containing a magnetic starter coil, Stop button, Start button, first capacitor, characterized in that, in order to increase the efficiency of the device by improving the energy efficiency of the capacitor, increasing the stability of the delay time of unlocking the magnetic armature starter, a field-effect transistor, a bipolar transistor, a single-junction transistor, a dynistor, three diodes, two zener diodes, two capacitors, eight resistors, a potentiometer, a collet are introduced into it the cortex of the bipolar transistor is connected to the cathode of the first diode, the anode of which is connected to the first terminals of the Start and Stop buttons, the emitter of the bipolar transistor is connected to one plate of the first capacitor, the anode of the first zener diode, one terminal of the first and second resistors, the anode of the second zener diode, to one terminal of the third resistor , one terminal of the second and third capacitors, the other terminal of the third resistor is connected to the anode of the dinistor, the cathode of which is connected via the make contact of the magnetic starter to the second terminal of the kn Start and the anode of the second diode, the cathode of which is connected to the first power bus, the second terminal of the Stop button is connected to the anode of the third diode and one terminal of the magnetic starter coil, the cathode of the third diode, the other terminal of the magnetic starter coil, the other lining of the first capacitor, cathode the first zener diode, one terminal of the fourth resistor, one terminal of the fifth resistor connected to the second power bus, the cathode of the second zener diode connected to another plate of the second capacitor, the other terminal of the fourth resistor, one terminal m of the sixth resistor, the source of the field effect transistor, the gate of which is connected to the potentiometer engine, one terminal of which is connected to the other terminal of the fifth resistor, and the other terminal is connected to the other terminal of the second resistor, the drain of the field effect transistor is connected to one terminal of the seventh resistor, the other terminal of which is connected to another lining of the second capacitor and an emitter of a single-junction transistor, one base of which is connected to another terminal of the sixth resistor and one terminal of the eighth resistor, the other terminal of which is connected with the base of a bipolar transistor. SU,. „1195406 I 1195406 2