US3409798A - Electron irradiation machine - Google Patents

Electron irradiation machine Download PDF

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Publication number
US3409798A
US3409798A US657163A US65716367A US3409798A US 3409798 A US3409798 A US 3409798A US 657163 A US657163 A US 657163A US 65716367 A US65716367 A US 65716367A US 3409798 A US3409798 A US 3409798A
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Prior art keywords
cathode
anode
transformer
diode
electron irradiation
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Expired - Lifetime
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US657163A
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English (en)
Inventor
Mccann John David
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UK Atomic Energy Authority
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UK Atomic Energy Authority
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J33/00Discharge tubes with provision for emergence of electrons or ions from the vessel; Lenard tubes

Definitions

  • the present invention relates to electron irradiation machines.
  • Electron irradiation machines are usually supplied with a high voltage, for example 150 kv., from a transformer and it will be appreciated that the output from the transformer will be an alternating output. Since it is undesirable to apply an alternating potential between the emitter cathode and the anode of the electron irradiation machine, a rectifier diode is included in the transformer circuit. A capacitor is connected between the anode of the diode and one end of the transformer, while the cathode of the diode and the other end of the transformer are connected to earth. This arrangement prevents the anode from becoming more than a few volts positive relative to earth. During the negative half Cycle of the transformer however the diode anode attains a negative potential which is only slightly less than the value of the peak to peak potential of the transformer.
  • the diode should withstand a voltage difference between its anode and cathode equal to the peak to peak amplitude developed by the transformer.
  • the diode should also give a high emission and possess low impedance characteristics during the positive half cycles. Suitable diodes are readily available for voltage differences of up to 150 kv., but for voltages above this suitable diodes are not readily available and are expensive.
  • an electron irradiation machine comprising a vacuum enclosure having an electrically conducting stem therein, an electron emitting cathode connected to said stem, an apertured anode spaced from the emitter cathode, and an electrode which forms the cathode of a rectifying diode arranged around the stem, the stem forming an anode for the rectifying diode in addition to acting as a connection to the said electron emitting cathode.
  • the apparatus of the present invention provides an electron irradiation machine in which the rectifying diode is an integral part of the machine and is included in the same vacuum enclosure.
  • a two, or more, stage acceleration may be applied by using several anodes, these being maintained at increasingly positive potentials 3,409,798 Patented Nov. 5, 1968 in passing from the emitting cathode, said anodes being connected to different tappings on a transformer and the cathode for each of said several anodes being the electrode arranged around said stem.
  • the irradiation machine may be used for the irradiation of objects by the electron beam within the vacuum enclosure, and also to irradiate objects located in a region of higher pressure external of the vacuum enclosure, into which region the beam of electrons passes out of the vacuum enclosure through a window located in the said enclosure.
  • the term irradiation target will be applied hereafter to those objects which are to be irradiated by the electron beam within the vacuum enclosure.
  • the vacuum enclosure may be provided with a removable cover thereby allowing access to the interior of the enclosure in order to change targets and also to replace worn components.
  • FIGURE 1 is a circuit diagram showing a previous arrangement
  • FIGURE 2 is a diagrammatic cross-section of an electron irradiation machine with a single integral diode
  • FIGURE 3 is a circuit diagram of an arrangement employing two rectifier diodes
  • FIGURE 4 is a diagrammatic sectional end elevation of an electron irradiation machine with two integral diodes.
  • FIGURE 5 is a diagrammatic sectional front elevation of the electron irradiation machine of FIGURE 4.
  • an electron irradiation machine 1 having an anode 2 and an emitter cathode 3 is connected to a transformer 4 which provides an alternating high voltage.
  • a rectifier diode 5, having an anode 6 and cathode 7 is connected across the transformer 4, with a 180 kv. capacitor 8 connected in series with the anode 6.
  • a cathode transformer 9 is connected to the cathode 7 of the diod 5 to supply the heating current thereto.
  • the end of transformer 4 remote'from the capacitor 8 is connected to earth as indicated at 10.
  • the rectified supply from the transformer 4 provides the accelerating potential for the machine 1.
  • An emitter transformer 11 is connected to the emitter cathode 3 to supply the heating current thereto.
  • a lead 12 connects the anode 6 of diode 5 and the capacitor 8 to the emitter cathode 3 and a further lead 13 connects the anode 2 to earth potential at 10.
  • the lead 13, and thus anode 2 are maintained at earth potential, while capacitor 8 and diode 5 produce a varying voltage in the lead 12, this voltage varying from about zero to a negative value equivalent to about the peak to peak output voltage of the transformer 4.
  • transformer 4 gives an output voltage having an R.M.S. value of kv.
  • the maximum potential developed across the diode 5, and thus the maximum accelerating potential in the machine 1 is of the order of -340 kv.
  • the diode 5 will have to withstand a potential drop of 340 kv. between the cathode and anode without breakdown occurring and that such diodes are costly to replace.
  • the electron irradiation machine 1 comprises a top flange 14 of brass or stainless steel, a ceramic, preferably glass, insulator segment 15 secured to the flange 14 and a tubular stainless steel section 16.
  • a removable cover 17 is secured to the tubular section 16, an O-ring 18 providing a vacuum seal between section. 16 and cover 17.
  • the cover 17 is provided with a thin exit window 19 of aluminium/magnesium alloy.
  • the anode 2 which has a central aperture, is fitted within the cover 17.
  • a tubular stem 20' of stainless steel is secured to the flange 14.
  • a conducting lead 21*of copper passes centrally through the stem 20 and at the bottom thereof is connected to the emitter'cathode 3, the latter being also connected to the stem 20.
  • the lead 21 is connected at its upper end to an insulated connector 22 in a central aperture in the flange 14.
  • the connector 22 and the flange 14 are connected: across the emitter transformer 11.
  • the diode cathode 7 is mounted around the perimeter of the section 16 on suitable insulated supports, through one of-which, 23, connections may be made to an earth connection which is also common to the high voltage transformer, and to a cathode transformer, in amanner similar to that described with reference to the FIGURE 1 arrangement.
  • the flange 14 is connected to the opposite end of the high voltage transformer through the lead 12 and capacitor 8.
  • the upper section of the electron irradiation machine 1 is located at the bottom of a containing vessel 24 so that the insulator segment and flange 14 are covered by a quantity of oil 25 which provides electrical insulation.
  • Section 16 is provided with a side conduit 26 by means of which during operation the interior of the machine 1 is connected to a suitable vacuum pump (not shown).
  • the stem functions as an anode relative to the cathode 7, and is at the same potential as the cathode 3.
  • the anode 2 is connected by a lead (not shown) to the same earth connection as is the diode cathode 7.
  • the assembly operates in the same manner as described with reference to FIGURE 1, cathode 7 and stem 20 being equivalent in function to the diode 5. In this arrangement, all the high voltage components are in the same vacuum enclosure and replacements are readily effected, when required, by removing the cover 17.
  • FIGURE 3 shows a conventional arrangement, using two rectifying diodes and two anodes in the electron irradiation machine.
  • the arrangement is similar to that shown in FIGURE 1 except that a further diode 27 is connected between the earthed lead 13 and a tapping from the mid-point of the transformer 4.
  • the anode 28 of the diode 27 is connected to the tapping on the transformer 4 through a 9'0 'kv. capacitor 30.
  • a lead 31 connects the anode 28 to an anode 32 of the accelerator 1.
  • the cathode 29 of diode 27 is connected to cathode transformer 9 in common with the cathode 7 of diode 5.
  • the output voltage of the transformer 4 has an R.M.S. value of 120 kv. and thus at the mid-point of the trans former the voltage has an R.M.S. value of 60 tkv.
  • the emitter cathode 3 will reach a potential of about -340 k'v., anode 32 a potential of about -170 kv. and the anode 2 will be at earth potential.
  • T hus, electrons emitted by cathode 3 will experience a two stage acceleration from cathode 3 to anode 32 and from anode 32 to anode 2.
  • FIGURES 4 and 5 show an apparatus in accordance with the present invention and possessing t-wo accelerating anodes.
  • the main section of the irradiation machine comprises an elongated vacuum chamber 33.
  • Three separate cathode units 34, 35 and 36 are mounted on the top of the chamber 33 and immersed in the oil bath in containing vessel 24.
  • Each of the cathode units comprises a flange 14, insulator segment 15 and'section 16;
  • the section 16 of each of units 34 and 36 contains a. cathode 29, and section 16 of unit 35 contains a cathode 7.
  • the stem 20 supports an elongate cathode support 37.
  • the emitter cathode 3 is an elongate cathode and is connected at its ends to the support 37.
  • the lead 21 passes through the stem 20 and is connected at its lower end to the midpoint of the cathode 3.
  • the lead 21 is also connected to the insulated connector 22 and from there to a high voltage transformer and an emitter transformer (not shown).
  • support members 38 are suspended, and to the lower end of each member 38 are fixed two support arms 39 to each of which is secured a part of the anode 32.
  • Each part of the anode 2 is supported on two support legs 40 which are fixed to the base 41 of the vacuum chamber 33 at either end of the elongate window 19.
  • the anode 32 is electrically connected through arms 39 and support members 38 to the flanges 14 of units 34 and 36, and from these flanges 14 to a capacitor connected to the mid-point of the same high voltage transformer as the lead 21.
  • the support members 38 act as anode to the cathodes 29 which are connected to a. suitable earth connection, as are also the cathode 7 and the anode 2.
  • the cathodes 7 and 29 are also connected to a suitable cathode transformer.
  • An electron irradiation machine comprising a vacuum enclosure having an electrically conducting stem therein, an electron emitting cathode connected to said stem, an apertured anode spaced from the emitter cathode, and an electrode which forms the cathode of a rectifying diode arranged around the stem, the stem forming an anode for the rectifying diode in addition toacting as a connection to the said electron emitting cathode.
  • An electron irradiation machine wherein two or more acceleration stages are applied to said electrons using several anodes characterised in that said anodes are maintained at increasingly positive po tentials in passing from the emitting cathode said anodes being connected to different tappings on a transformer and the cathode for each of said several anodes being the electrode arranged around said stem.

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  • Physical Or Chemical Processes And Apparatus (AREA)
  • Electron Sources, Ion Sources (AREA)
  • Particle Accelerators (AREA)
  • Radiation-Therapy Devices (AREA)
  • Electron Beam Exposure (AREA)
US657163A 1966-08-08 1967-07-31 Electron irradiation machine Expired - Lifetime US3409798A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB35437/66A GB1199571A (en) 1966-08-08 1966-08-08 Improvements in or relating to Irradiation Machines.

Publications (1)

Publication Number Publication Date
US3409798A true US3409798A (en) 1968-11-05

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US657163A Expired - Lifetime US3409798A (en) 1966-08-08 1967-07-31 Electron irradiation machine

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US (1) US3409798A (enExample)
GB (1) GB1199571A (enExample)
NO (1) NO119431B (enExample)
SE (1) SE320737B (enExample)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5175468A (en) * 1990-11-30 1992-12-29 Proel Technologie S.P.A. Device for generating an on-off modulation electron beam

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2912616A (en) * 1956-02-07 1959-11-10 Itt Pulsed-cathode electron gun

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2912616A (en) * 1956-02-07 1959-11-10 Itt Pulsed-cathode electron gun

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5175468A (en) * 1990-11-30 1992-12-29 Proel Technologie S.P.A. Device for generating an on-off modulation electron beam

Also Published As

Publication number Publication date
NO119431B (enExample) 1970-05-19
SE320737B (enExample) 1970-02-16
GB1199571A (en) 1970-07-22

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