SU1275557A1 - High-speed electromagnetic device - Google Patents

Abstract

This invention relates to automatic control. The purpose of the invention is to reduce energy consumption. A transistor 4 and a zener diode 7 are inserted into the device. Only one winding 1 is supplied from capacitor 3, the other winding 2 is fed through the collector-emitter junction of transistor 4. Therefore, the device operates quickly and only the potential necessary to keep the device in the actuated position is applied to winding 2 which is tightly stabilized. 1 il. 1YU € JV JV

Description

This invention relates to automatic control and can be used to quickly turn on and off power electromagnets, electromagnetic clutches, etc. The purpose of the invention is to reduce power consumption. The drawing shows a schematic diagram of the device. The device consists of windings 1 and 2, a capacitor 3 and a transistor 4, which forms two parallel chains with its collector-emitter junction. The connection point of the windings 1 and 2 is connected to the negative one. Terminal of the DC power supply 5 The connection point of the capacitor 3 and the collector of the transistor 4 is connected to the positive terminal of the DC power source 5 via key element 6. Zener diode 7 is connected by the anode to the connection point of the capacitor 3 and winding 1, and by cathode to the connection point of the base of transistor 4 and resistor 8. Another terminal of resistor 8 is connected to the connection point of switch 6, capacitor 3 and collector of transistor 8. The device works as follows . When the key element 6 is closed, the potential of the power source 5 through the capacitor 4 is applied to the winding 1. The current flows through the charging capacitor 3, through the winding 1 and then to the minus power source 5. Almost simultaneously, through the Zener diode 7, the positive potential hits the base of the transistor 4, since the Zener diode 7 is connected in the forward direction. Transistor 4 opens and through its collectively-emitter junction to winding 2 a potential of source 5 is supplied. A current flows through winding 2. Since only one winding 1 is powered from the capacitor 3, and the second winding is fed through the collector-emitter junction of the transistor 4, the electro-magnetic device is rapidly activated. Due to the fact that the winding 2 is connected to the source 5 through the collector-emitter junction of transistor 4 for the duration of the charging time of the capacitor 3, the maximum current passes through the winding 2 at all times during the charging of the capacitor 3. At this time the charging capacitor 3, as the capacitor 3 is charged, decreases exponentially. After charging the capacitor 3, the current flow through the winding 1 and the zener diode circuit 7 is almost stopped. The base potential of the transistor 4 is reduced and the transistor 4 is no longer fully open due to the circuit resistor 8, the zener diode 7 (it is connected in the stabilization mode) and the winding 1, i.e. The collector-emitter junction of transistor 4 has a certain resistance, and only the potential necessary to hold the device in the actuated position is supplied to winding 2. The potential required to hold the device in the actuated position is rigidly stabilized. Consequently, when the voltage in the source 5 fluctuates, the voltage on the winding, and hence the current flowing through the winding 2, is stabilized, which can be used to reduce energy consumption by reducing the holding current. After opening the key element 6, the capacitor 3 through the collector-emitter junction of the transistor 4 and the windings 1 and 2, having the same number of turns. The discharge current of capacitor 3, which flows counter to windings 1 and 2, creates opposing magnetic fluxes, the total value of which turns to zero. The discharge current of the capacitor 3 is maintained no less than the holding current of the device until the base current of the transistor 4 through the resistor 8 becomes less than the stabilization current. When the key element 6 is opened, the current through the winding 1 flows in the opposite direction and the zener diode 7 leaves the stabilization mode. The entire current of the stabilization chain is switched to the base-emitter circuit of transistor 4, which opens transistor 4, and capacitor 3 is discharged. Energy stored in the discharge of capacitor 3 in windings 1 and 2 is dissipated through zener diode 7 on the resistances of the latter. In this case, the resulting magnitude of the magnetic flux from the EMF-selfind; the functions in windings 1 and 2 are also zero, and overvoltage on the capacitor 3 does not occur.

Thus, the electromagnetic device immediately returns to its original position and is ready for the next power up,

Claims (1)

Invention Formula A fast-acting electromagnetically device comprising two identical windings, a key element, a capacitor, a resistor and outputs for connecting a DC source, one of the outputs of the first and second windings being combined and connected to a terminal for connecting a negative pole of a DC source, a terminal for connecting the positive pole of which through a key element is connected to the connection point of one of the capacitor plates and one of the terminals of the resistor, the other capacitor plate is connected to each other It is characterized by the fact that, in order to reduce electricity consumption, a transistor and a zener diode are inserted into it, with the anode of the Zener diode connected to another output of the first winding, its cathode to the connection point of another output of the resistor and base of the transistor, the emitter of which is connected to another the output of the second winding, and the collector - to the junction point of the capacitor and resistor.