SU686158A1 - Electron gun for electron-beam heating - Google Patents

Description

I

The invention relates to the field of electrothermal and can be used in installations for heating, melting, metals in vacuum.

Electron guns for electron beam heating are known in which the linear cathode is rigidly fixed in the cathode holders IJ. The disadvantage of such guns is the instability of the position of the cathode relative to the focusing electrode, which significantly degrades the electron-optical parameters of the gun.

The closest technical solution to the invention is an electron gun for electron-beam heating, a containment body, on the insulator of which terminal terminals are mounted with two flat current leads attached to the busbar by two springs and fixed in the cathode holders a linear cathode intercepted by the dihedral surface of the coaxially to it of the focusing electrode 2. However, the current-conducting springs on which the cathode is attached, are elongated during heating, which entails a change in the position of the cathode rather

focusing cathode electrode. A change in the position of the cathode and its deflection in the middle part in this gunstroke also results in that, when the cathode is lengthened from heating, its fixing point moves along an arc with a radius equal to the length of the spring current lead. Changing the position of the cathode relative to the focusing electrode, even to the tenth fractions of a millimeter, significantly changes the focusing of the electron beam, therefore, these drawbacks significantly reduce the stability of the electron-optical parameters of the electron gun during its operation,

Claims (2)

In the proposed electron gun, the focusing electrode is made of two electrically isolated from one another and installed with a gap of elements, on each of which the other ends of the flat current are attached to opposite end surfaces; There are additional flat springs on the opposite end surfaces, which are connected to cathode holders attached to the same surfaces, with the arrows deflecting the springs attached to different elements of the focusing electrode, facing each other. Such an embodiment of an electron gun provides an improvement in its electron-optical parameters, as well as a partial compensation of the influence of the magnetic field of the filament current on the deflection angle of the electron beam. FIG. 1 shows the described electron on the gun; rta of FIG. 2 is a section along A-A in FIG. 3 is a view along arrow B in FIG. 2. The electron gun includes a slot-type accelerating anode 1 and a removable cathode head with a housing 2. On the insulator 3 there are fixed terminal current leads 4, to which the springs 6 are attached to the other ends by the screws 6 to the other ends of the springs 6 Each of the elements of the focusing electrode B. is fastened. The end of the linear cathode 9 with a screw 10 is wedged in the landing slot with a wedge, which is the cathode holder I. The cathode 9 is located in the gap between the elements of the focusing electrode 8 Line cathode 9. having a corresponding the length at which to fix its ends it is necessary to reduce the elements of the focusing electrode 8 with cathode holders And by 4-5 mm, is pulled by flat springs 6. During the operation of the electron gun with linear expansion of the cathode 9 as a result of its heating to working temperatures, the elements of the focusing electrode 8, together with the cathode holders 11, under the action of parallel-mounted flat springs 6, tensioning the cathode 9, move in a plane-parallel manner along the axis of the latter, without causing it to transversely deform. The fixed performance of the cathode holders 11 relative to the elements of the focusing electrode 8 ensures the stability of the position of the cathode 9 relative to the focusing elec- trode. The transverse map fields with respect to the electron beam flow formed by the current flowing through the common elements of the focusing electrode 8 have a direction opposite to the direction of the transverse field formed by the current flowing through the cathode 9pK partially compensate for it, which ensures a more stable position of the electron beam trajectory at different filament currents in the process of adjusting the power of the gun and reduces the effect of current ripple on the electron-optical parameters of the beam. The invention of an electron gun for electron-beam heating, comprising a housing, on the insulator of which terminal-mounted current conductors with two flat current-carrying springs attached to their ends by one end, and fixed in the cathode holders a linear cathode intercepted by a two-sided surface of the fixed coaxially focusing electrode, characterized in that, in order to improve the electron-optical parameters, the focusing electrode is made of two electrically isolated from one another and set elements with a gap, on each of which, on the opposite ends of the end surfaces, are attached the other ends of the flat current-carrying 1 FUZHIN, and on the opposite end surfaces, additional flat springs are attached, which are attached to the same surfaces of the catholes, with the arrows of the deflection Springs, attached to different elements of the focusing electrode, are directed towards each other. Sources of information that are taken into account in the examination 1.Sporoshons Electrothermal equipment. M., Energie. 1968. p. 452-458. 2. Author's USSR Blessing No. 318179, cl. H 05 B 7/00. 07.24.69 (prototype).