SU280721A1 - Electron Beam Processing Device - Google Patents

Description

A device for electron-beam metal processing is known, containing an electron beam iiyHiKy, an accelerating voltage divider and a control system with a focusing lens and DISCONNECTING coils with a master sinusoidal voltage generator.

The drawback of the device is a change in the parameters of the welded 11sh when the accelerating voltage is changed.

At the time when this deficiency was eliminated, a functional transducer was introduced into the device, which serves to extract the square root of the acceleration value. It is connected by its input to the accelerator voltage divider, and by its output - to the master oscillator of the control system, providing the output parameters of the master oscillator varying with the magnitude of the accelerator.

The drawing shows a block diagram of the device. The input is an accelerating voltage divider. A functional converter 2 is connected to the output of the voltage divider, to the output of which a modulating input 3 of a fixed frequency generator with an attenuator 4 is connected.

The attenuator slider 4 is connected to switch 5, through which it is passed to phase shifter 6 or turn on transformer 7. The latter is mechanically connected to irpv house 8, and its electrical outputs are Gdodk, and are connected to demodulators 9 and 10.

The output amplifiers 11 and 12 are connected via () reader 5 to either the outputs of the lemodulators 9 and 10 or to the output of the phase shifter 6 and the attenuator 4. Feedback resistances 15 and 16 are connected in series with the deflecting coils 13 and 14.

Functional converter 2 performs a piecewise linear approximation of -wFincn of f () B range (0.75 -, 3) Uy (; K., noM with an accuracy of the order of ± 0.5%. Approximation of this dependence is carried out according to ur ;

UBLIX. function converts - i Biting.)

The collector voltage of generator 3 is removed from, and converter 2. Thus, the amplitude of the voltage at the output of the generator varies tiponopUHOHaji ..

Attenuator 4 serves to control the diameter of the circumflexia, described by a beam of elecrons.

Depending on the type of operation of the device, one of its two channels operates.

In the position a of the switch 5, the phase shifter 6 is connected to the attenuator 4, which shifts the phase of the frequency of 2000 Hz by 1C / 2. In this mode, the annular welds are welded with the so-called oJinii04HbiM pulse, when during the current pulse duration the electron beam is repeatedly propagated along the weld seam.

In the position of the switch 5, a voltage of 2000 Hz is powered by a TMV type transformer 7. 6, the rotation speed of which is set and adjusted. drive 8. In this mode, the welding of colo IbOBs is performed with a linear velocity of 1me.mechani1 beams in the range of 5 500 m / chao.

Ma Bbixoue demodulators 9 and 10 are formed by a 1Hp, whose frequency is adjusted in the range of 0.0 10 Hz by changing the speed of the rotation of the transformer 7.

The same pair of output amplifiers I and 12 are connected via switch 5 to either of the two channels of the device, depending on the type of operation.

In series with the bias coils 13 and 14, feedback resistances 15 and 16 are used, which are used in the current deflection circuit 1 when the ohmic resistance of the windings changes.

Claims (2)

1. A device for electrofusing metal processing, comprising an electron beam starting device, an accelerating voltage divider and a control system with a focusing lens and deflecting coils. with a master generator of sinusoidal voltage, which is due to the fact that, in order to stabilize the parameters of a circular P1va with an accelerating voltage possible HecTa6 jrbHocTH, a functional transducer is introduced into the device, which extracts the square root of voltage, supplied by its input to the accelerator voltage divider, and output - to the control system. 2. A device according to claim I, which is such that the output of the functional converter is connected to the master oscillator, ensuring that its output parameters change with a change in the magnitude of the accelerating switch.