SU90562A2 - Electrode feed regulator at electric-spark working of metals - Google Patents

Description

There are known supply controllers in an electric-spark device according to auto. No. 74866, made in the form of a reversible magnetic coupling.

The proposed feed regulator differs from the well-known fact that an alternating current is additionally supplied to the reversible magnetic coupling to reduce the dead zone of the regulator .10

The additional magnetization by alternating current increases the response of the mobile system by eliminating the hysteresis effect of the magnetic system. In addition, the vibration of a mobile system in an alternating magnetic field promotes selective attraction of the core to the corresponding side of the magnetic system with a slight debalance of the magnetic fields, which is also a factor that increases the sensitivity and accuracy of the drive.

Figure 1 shows an automatic rigid drive with friction reversal; 25 in Figure 2 is an electrical drive circuit.

The drive consists of an electric motor 1 with a constant number of revolutions, gear reducer 2, cup friction pulley 3, driven friction-30

roller 4, a worm screw 5, a rocking fork 6, a worm gear 7, an electromagnet core 8, electromagnets 9 and 10.

The action of the automatic drive is based on imparting to the screw 5 a rotation, feeding the moving system, the corresponding direction, due to the interaction of the fields of the electromagnets 9 and 10, forcing the driven friction roller 4 to press against the internal or. to the outer surface of the driving friction pulley 3. With the law of magnetic fields, due to the action of the spring, the driven roller is in the middle position and does not rotate.

The magnitude of the magnetic field of each of the electromagnets is determined by the degree of intensity of spark discharges.

When the drive is operated, the electromagnet 10 generates a magnetic field, varying from zero to a maximum, depending on the degree of intensity of the spark bits. The force acting on measles depends on the magnitude of the previous induction in the magnetic circuit, which is caused by hysteresis. This phenomenon is inaccurate. To eliminate the effect of hysteresis on the magnetic circuit of the electromagnets, additional windings 11 and 12 are applied, which excite an alternating magnetic field in the system. These windings are powered by alternating current. When a variable magnetic field is applied to a constant value, the induction changes along an ideal magnetization curve, which eliminates the harmful effects of hysteresis and increases the accuracy of the drive. Anchor 8, moving in the magnetic field of electromagnets 9 and 10, being in a magnetic field of one direction with an alternating field superimposed on it, vibrates. Vibration core contributes to its selective attraction to the corresponding electromagnet with an insignificant change in the balance of magnetic forces. Thus the imposition of a variable tycoon # 1Ю1. the floor increases the sensitivity of this magnetic system, and also improves the performance of the mechanical moving system, as it reduces inertial braking.

Claims (1)

Invention Formula The regulator of the supply of electrodes in the electric-spark machining of metals - by auth.St. 74866 with counter magnetic fields in an electromagnetic clutch, characterized in that, in order to reduce the dead zone of the regulator, the electromagnetic clutch has two additional, powered by alternating winding voltage, the magnetic flux from which affects the magnetic clutch of the magnetic clutch actuator. ech