RO102464B1 - Electromagnetic device for controlling electrons flows - Google Patents

Abstract

The invention relates to an electromagnetic device to direct the flow of electrons in the installations equipped with plasma electron sources, which allow the adjustability and direction of the field lines, in the purpose of generating the electromagnetic force that can direct the electrons into a predetermined area with a low energy consumption. The device consists of a housing (1), composed of flanges (5, 6), tubes (7, 8) made made of ferromagnetic materials, an intermediate piece (9) of non-magnetic material, over tubes (7, 8) and the intermediate piece (9) is wrapped around the spirals of a coil (10), and for the outer closure of a magnetic circuits are provided with caps ferromagnetic (8), and for the purpose of field management magnetically inside the enclosure (14), on the tubes (7.8) some polar pieces are placed (17. 18).

Description

The invention relates to an electromagnetic device for directing the flow of electrons in installations equipped with a plasma electron source.

In order to direct the flow of electrons in installations with plasma electron sources, mechanical and magnetic steering devices are known, but which have the disadvantage that they do not allow adjustability, for a certain construction, a restricted range of the surface bombarded by electrons is obtained.

The object of the invention is to realize the influence of the path and the distribution of the electron flow from the plasma electron source.

The problem solved by the invention is that of making an electromagnetic device for directing the flow of electrons, with adjustment possibilities.

The invention removes the above disadvantages, in that the electromagnetic device for directing the flow of electrons from the plasma electron source is composed of a housing composed of flanges, an upper tube, a lower tube, all made of ferromagnetic materials, a intermediate part of non-magnetic material, over the tubes and the intermediate part, the coils of a coil are wound, and for the outer closure of the magnetic circuit there are provided ferromagnetic caps, and for the purpose of directing the magnetic field inside the enclosure, a piece is placed on the upper and lower tube upper polar, respectively, a lower polar piece.

An example of embodiment of the invention is given below and in connection with FIG. 1 and 2, representing:

FIG. 1, the schematic diagram of the plasma source electrons installation;

FIG. 2, section through the electromagnetic steering device.

The device according to the invention is made up of a housing 1, fixed by the unloading chamber 2 and by a working room 3, with the help of brackets 4.

The housing 1 is composed of an upper flange 5, a lower flange 6, an upper tube 7, a lower tube 8 all made of ferromagnetic materials and an intermediate piece 9 of non-magnetic material, the elements of the housing 1 being sealed together. Over the tubes 7 and 8 and over the intermediate piece 9 the coils of a coil 10 are wound, which, connected to a voltage source, not shown in the drawings, carry out the excitation of the housing 1. The magnetic circuit is closed externally by means of ferromagnetic caps 11 fixed by the flanges 15 and 16 with some screws 12. between the coils 10 of the coil 10 and the housing 1 is located an installation 13, which provides electrical insulation between the housing 1 and the coil 10.

When connecting the coil 10 to the voltage source, the field lines close through the covers 11, the flanges 5 and 6, the upper tube 7, the lower tube 8, the intermediate piece 9 behaving like an air gap, which makes it as part of the lines. field to be closed by the enclosure 11, where they interact as the electrons circulating between the cathode 15 and the heating part 16 fixed in work rooms 3.

In order to direct a part of the magnetic flux towards the center of the enclosure 14, an upper polar piece 17 is fixed on the upper tube 7, and on the lower tube a lower polar piece 18, so that according to the dimensions of intermediate pieces 9, the distance between the polar parts 17 and 18 and of the current flowing through the coil 10, one can control the values of the intensity and the induction of the magnetic field inside the enclosure 11, so that, by composing with the proper magnetic field of the electron flow, the resulting field will interact with electrons, and the forces generated will direct them to the surface of the heating part 16.

The vacuum in rooms 2 and 3 and in the enclosure 14 is achieved by a pumping system, not shown in the drawings, which acts through the tube 19. By the adopted construction, the coil 10 is not enlarged in the enclosure 14, thus eliminating the possibilities of degassing the their installation.

The device according to the invention has the following advantages:

- allows the adjustability of the parameters as 3 4 magnetic pole in the enclosure;

- does not require a cooling circuit;

- the energy consumption in turns is small, the connection to the source being made only during the download.

Claims (1)

Electromagnetic device for directing the flow of electrons from the plasma electron source, characterized in that 10 is made up of a housing (1), composed of an upper flange (5), a lower flange (6), an upper tube (7), a lower tube (8), all made of ferromagnetic materials, an intermediate piece (9) of non-magnetic material, an insulation (13), over the tubes (7, 8) and the intermediate piece5 daily (9) are wrapped The coils of a coil (10), for the external closure of the magnetic circuit, are provided with ferromagnetic caps (8), and for the purpose of directing the magnetic field inside the enclosure (14), on the upper tube (7) and on the lower tube (8) it places an upper polar piece (17), respectively a lower polar piece (18).