DE4204900A1 - Electron beam machine - with the transformer located in the high-vacuum space behind the beam generator - Google Patents

Abstract

The electron beam machine has transformer parts (6,11) and (12,7) located in a region (17), i.e. behind the beam generator elements (2,3,4) within the high-vacuum space of the insulation housing (1,5) but still outside the notional cylindrical surface (18) between the opening (19) and the beam generator elements. Pref. the switching elements (13,14) associated with the transformer (6,8,11; 7,9,12) are located within the high-vacuum space outside the surface (18). Magnetic field screen (21) kept at a high-voltage potential is located between these switching elements and the beam generator elements (2,3). The screen extends into the surface (18) and has an opening (22) bounded by this surface. The primary coil (8; 9) is embedded in the insulating material of the lining (5) and is separated at least from the secondary coil (6; 7) by sections (25,26) made of an insulating material. At least one of them, that is, either (25) or (26) serves as a transformer holder. USE/ADVANTAGE - In welding, boring and surface treatment installations based on electron beam operations. Its construction is simpler than that of known electron beam machines. Furthermore, the beam generator is easily accessible.

Description

The invention relates to an electron beam machine with at least one high voltage trans formator part of a primary and secondary coil as well Transformer core existing insulating transformer, which with the jet generator is connected via lines and an insulating hood that at least the jet generator surrounds vacuum-tight and a vacuum-tight sealable Has opening through which the jet generator mount bar, can be dismantled or adjusted and the like.

Electron beam machines are used for thermal loading work of workpieces especially for welding and Drilling and surface finishing of workpieces puts. The tool, the electron beam, comes with one of high voltage cathode, Wehnelt electrode and  Anode existing beam generator formed. To create High voltages are required from electron beams Lich, z. B. when welding voltages of 60 kV up to 150 kV typical.

Since the beam generator in electron beam machines in Vacuum must be arranged, on the one hand that of an insulating transformer and the associated gene circuit elements for the production of auxiliary voltages at high voltage potential are available set voltages as lossless as possible the beam to make available to producers and on the other hand a safe and inexpensive, high voltage resistant Separation of the high-voltage parts opposite to enable those at earth potential.

From DE-AS 11 10 330 it is known the insulating transformer outside of the electron beam machine arrange and the high voltage over wires the beam feed producers.

Furthermore, DE-PS 11 31 760 is a broadband isolator transformer known behind the beam generator is arranged on the electron beam machine. The parts with high voltage potential are included connected to a tank filled with insulating oil, on the sen top of the insulating transformer is arranged. A three-wire high-voltage cable opens into the tank. The acceleration voltage and the auxiliary voltage ver. for the Wehnelt electrode and the cathode heating usually run through the oil-filled insulating candle and are through sealed bushings to the electrodes of the Beam generator connected.

A similar route from the arrangement of the Isoliertrans formators and the circuit elements treads the DE-OS 33 33 686. Here is the isolation transformer that  Circuit elements and the high voltage connection full constantly embedded in an insulating material and upper half of the beam generator on the electron beam arranged.

The invention has for its object a simple and cost-effective insulation of high-voltage cables the parts of the insulating transformer and the associated Allow circuit elements, one access the beam generator should be guaranteed.

This object is achieved in that the transformer parts in an area behind the Jet generator parts in the high vacuum range within of the insulating housing, however, outside of between the opening and the jet generator parts Envelope surface arranged.

Advantageous developments of the invention are in the Subclaims specified.

Due to the features of claim 2 is advantageous the shielding of the isolating transformer and the circuit elements outgoing interference magnetic fields reached because the magnetic field shield, e.g. B. as a hollow cylinder Soft iron executed up to the level of the circuit element elements can be arranged. With the characteristics of the An the disturbing influence of the beam in the radiation source by said interference magnetic fields prevents.

The advantages associated with the invention are in that to protect against high voltage arcing the insulation hood provided for the jet generator and that existing high vacuum behind the jet generator Isolation of the high-voltage parts of the Iso liertransformer and the high-voltage  Switching elements is used. As a result, a inexpensive training of the insulating transformer can be achieved, whereby the three-wire high voltage Ka as is required in the prior art, be replaced by an inexpensive single core can. In addition, a beam through the invention pulse even at higher frequencies (greater than 5 KHz) is possible because the supply lines from Wehnelt voltage switching elements to the beam source essential are shorter and have less capacity than when used a three-wire high-voltage cable and the Wehnelt Voltage generation in the high voltage tank.

The jet generator can advantageously through an opening assembled, disassembled or can be adjusted without the isolation transformer or the high voltage associated with it Switching elements have to be dismantled.

An embodiment of the invention is in the drawing shown and will be described in more detail below ben.

In the drawing, the upper part of an electron beam machine is shown schematically. In the insulating housing designated 1 of the cathode holder 2 , Wehnelt electrode 3 and anode 4 existing beam generator is arranged. The insulating housing 1 has the shape of a hood, which consists of insulating material, for example ceramic or cast resin. The wall thickness and the dimensions of the hood 5 are so selected that an electrical breakdown, the high voltage parts, for. B. the brackets for the beam source, circuit elements and the secondary coils 6 , 7 to the outside of the housing is not possible. According to the invention, the primary coils at ground potential 8 , 9 are resistant to high voltages in the insulating material of the insulating housing 1 and are also cast to the transformer cores 11 , 12 which, according to one embodiment, are also at high voltage potential. The hood 5 , which is made of insulating material, has interchangeable sections 25 , 26 which also serve as holders for the insulating transformers 6 , 8 , 11 and 7 , 9 , 12 . The high-voltage secondary coils 6 , 7 are each assigned the switching elements at high voltage potential for the Wehnelt voltage 13 and for the cathode heater 14 . The switching elements 13 , 14 are also held by means of the insulating material 15 , 16 . Due to the lateral arrangement of the insulating transformers 6 , 8 , 11 and 7 , 9 , 12 in the insulating material of the hood behind the beam generator parts 2 , 3 , 4 , i.e. in a high vacuum space on the side facing away from the electron beam, an enveloping surface 18 is formed (dashed lines shown) between an opening 19 in the Isoliergehäu se 1 and the jet generator 2 , 3 , 4th The opening 19 can be closed with a lid 20 in a vacuum-tight and high-voltage-resistant manner. On its side facing the vacuum, the cover 20 also has an insulating material layer. Through the opening 19 , it is advantageously possible to assemble or disassemble or adjust the cathode holder 2 designed as an exchangeable cartridge and / or the beam source with Wehnelt electrode 3 without dismantling electrical / electronic components.

Between the circuit elements 13 , 14 and the beam generator 2 , 3 , 4 is also a high voltage and high vacuum magnetic field shield 21 is provided which has an opening 22 in the envelope surface 18 and thus unimpeded access to the beam generator parts 2 , 3rd , 4 permits. The hood 5 is surrounded by a metal jacket 23 , which is just if it is at ground potential and is mainly used to shield the X-rays generated in the device.

The high-voltage connection is designated 24 and connected to the radiation source in the insulating housing. Via lines 27 and 28, the Wehnelt electrode 3 is connected to the Wehnelt 13 and the cathode 2 with the cathode heating fourteenth

Claims (8)

1.Electron beam machine with at least one high-voltage transformer part of a primary and secondary coil and transformer core consist of the insulating transformer, which is connected to the beam generator via lines and an Isoliergehäu se, which at least surrounds the beam generator vacuum-tight and has a vacuum-tight sealable opening through which Jet generator can be assembled, disassembled or adjusted or the like, characterized in that the transformer parts ( 6 , 11 ) and ( 12 , 7 ) in a region ( 17 ) behind the beam generator parts ( 2 , 3 , 4 ) in the high vacuum region within the insulating housing , but outside of the envelope surface ( 18 ) between the opening ( 19 ) and the jet generator parts ( 2 , 3 , 4 ). 2. Electron beam machine according to claim 1, characterized in that the insulating transformer ( 6 , 8 , 11 or 7 , 9 , 12 ) associated circuit elements ( 13 , 14 ) are arranged in the high vacuum region outside the envelope surface ( 18 ). 3. Electron beam machine according to claim 1 or 2, characterized in that between the circuit elements ( 13 , 14 ) and the beam generator ( 2 , 3 ) a high-voltage potential magnetic field shield ( 21 ) is arranged. 4. Electron beam machine according to one of claims 1 to 3, characterized in that the magnetic field shield ( 21 ) protrudes into the envelope surface ( 18 ) and has an opening ( 22 ) lying in the envelope surface ( 18 ). 5. Electron beam machine according to one of claims 1 to 4, characterized in that the primary coil ( 8 or 9 ) is resistant to high voltages in the insulating material of the insulating housing ( 1 , 5 ) and is separated from at least the secondary coil ( 6 , 7 ) by means of high-voltage insulation . 6. Electron beam machine according to one of claims 1 to 5, characterized in that the circuit elements ( 13 , 14 ), the magnetic field shield ( 21 ) and the insulating transformer ( 6 , 8 , 11 or 7 , 9 , 12 ) and / or are attached in the hood ( 5 ). 7. Electron beam machine according to one of claims 1 to 6, characterized in that the insulating transformer ( 6 , 8 , 11 or 7 , 9 , 12 ) or transformer parts are interchangeably connected to the hood ( 5 ). 8. Electron beam machine according to one of claims 1 to 7, characterized in that the hood ( 5 ) has interchangeable sections ( 25 , 26 ) made of insulating material, of which at least one ( 25 or 26 ) holder of an insulating transformer ( 6 , 8 , 11 or . 7 , 9 , 12 ).