US1907508A - Thermionic apparatus - Google Patents

Thermionic apparatus Download PDF

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Publication number
US1907508A
US1907508A US404609A US40460929A US1907508A US 1907508 A US1907508 A US 1907508A US 404609 A US404609 A US 404609A US 40460929 A US40460929 A US 40460929A US 1907508 A US1907508 A US 1907508A
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United States
Prior art keywords
cathode
switch
regulator
focal
current
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Expired - Lifetime
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US404609A
Inventor
William D Coolidge
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General Electric Co
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General Electric Co
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Publication date
Priority to US393819A priority Critical patent/US1946286A/en
Application filed by General Electric Co filed Critical General Electric Co
Priority to US404609A priority patent/US1907508A/en
Priority to FR704038D priority patent/FR704038A/en
Priority to GB28091/30A priority patent/GB355978A/en
Priority to FR39185D priority patent/FR39185E/en
Priority to GB32540/30A priority patent/GB366473A/en
Priority to BE374674D priority patent/BE374674A/en
Priority to US610866A priority patent/US1946288A/en
Application granted granted Critical
Publication of US1907508A publication Critical patent/US1907508A/en
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Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05GX-RAY TECHNIQUE
    • H05G1/00X-ray apparatus involving X-ray tubes; Circuits therefor
    • H05G1/08Electrical details
    • H05G1/26Measuring, controlling or protecting
    • H05G1/30Controlling
    • H05G1/52Target size or shape; Direction of electron beam, e.g. in tubes with one anode and more than one cathode
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J35/00X-ray tubes
    • H01J35/02Details
    • H01J35/14Arrangements for concentrating, focusing, or directing the cathode ray
    • H01J35/147Spot size control

Definitions

  • the present invention relates to thermionic devices, such, for example, as X-ray tubes, provided with a plurality of cathodes, which are capable of being used interchangeably.
  • said cathodes may tion in order to avoid overheating of the target at the focal spot.
  • means are provided for controlling the current in the heating circuits of the respective cathode circuits of an X-ray tube, or.other thermionic device, the setting of said control means being. sointerlocked with switching means for selectively exciting the cathodes of the discharge tube that a change from one cathode to another automatically fixes the setting of regulating means for the cathode selected for operation.
  • FIG. 1 of the drawing shows somewhat diagrammatically an X-ray apparatus embodying my invention
  • Fig.2 illustrates a modification adapted particularly for operation ,in connection with oil-immersed X-ray devices
  • Fig. 3 is a detail View of a cathode structure which is employed in an X-ray tube used in my improved apparatus.
  • the system illustrated in Fig. 1 includes.
  • thermionic X-ray device comprising a bulbous container 2, containing a cathode structure 3 and an anode or target 4, stem 5 of which leads to an external radiator or heat dlsslpator 6.
  • the cathode structure 3, as shown in Fig. 3 comprises a cup-shaped focusing device 7 in which are provided spirally Wound filaments 8 and 9. These filaments have separate supply conductors 11 .and 10 respectively and a common return conductor 12.
  • the filaments are so positioned within the focusing device 7 that when either filament is heated to an electron:emitting temperature, that electrons emitted by it, (also 7 known as cathode rays) will be projected 5 upon a target 14 of highly refractory metal, such for example as tungsten, which forms part of the anode 5.
  • the electrons emitted from either ofthe filaments 8 or 9 are caused to impinge upon a focal 'spot on the target, the size of the focal spots depending upon the position of the filaments 8 and 9 within the focusing cup 7.
  • the size and excitation of the filaments 8 and 9 are so chosen that a relatively small electron current is caused to be emitted by the filament 8 and a larger current is caused to be emitted by the filament 9, thus permitting different X-ray outputs to be obtained from the X-ray tube.
  • the electrostatic focusing effect of the device 7 causes the cathode rays fromthe respective filaments to be focused on focal spots of correspondingly different areas. To secure maximum definition the focal spot should be as small as practicable without overheating the anode'metal at the focal spot during a normal period of operation.
  • Heating current for the cathode filament is obtained from the secondary of theatransformer 15, the primary of which is connected to the supply mains 16.
  • Either one of the filaments 8 or 9 may be connected in circuit with the transformer 15 by aselector switch 17, that is, when the selector switch is moved to the. left to the contact 18 so as to complete the circuit of the conductor 10, heating current will flow from the secondary of the transformer 15, through the conductor 10, through the filament-9, returning through the conductor 12,
  • the resistance 19 is caused to be shortcircuited periodically by the vibrations of a magnetic member or armature 33 which is juxtaposed to the core 34 of the windings 25 and 26.
  • the vibrations of this armature opens and closes contacts 35 in a circuit 36 shunting the resistance 19.
  • the relative periods of make and break of the contacts 35 determine the effect of the resistance 19 in the respective cathode circuits.
  • a regulator of the form here shown is more fully described in U. S. Letters Patent No.
  • the switches 17 and 27 are connected to one another by an interlock member 37.
  • the setting ofthe accuses X-ray tube can be shifted from one setting to another with the assurance that whenever the focus of the X-ray is changed to provide a smaller focal spot for sharper definition or for any other reason that the space current in the X-ray tube at the same time will be decreased and maintained at a lower value.
  • the re ulator is connected in the primary circult of transformers 40 and 41, the secondary circuits; of which are respectively connected to the cathode supply conductors 10, 11 and 12.
  • the windings 42 and 43 of the regulator 44 are connected in series with the secondary windings 45 and 45 of the transformer 46 which supplies high potential operating current by the conductors 47 and 48 to the X-ray device.
  • a regulable resistance 54 may be inserted in shunt with the primary winding'of transformer 40 to permit of hand adjustment of the value of the heating current.
  • a similar resistance 55 is inserted in shunt with the primary winding of the transformer 41.
  • the arrangement shown in this figure is particularly suitable for operation with a device in which the X-ray tube as well as the high potential transformer 46 and the low potential filament transformers 40 and 41 are'all contained within an enclosure or tank 49 which contains a body of oil, or other suitable insulatin fluid.
  • the cathode heating transformer 40 When the switch 17 is moved to the left in contact with a conductor 56, the cathode heating transformer 40 is energized, thereby suppling heating current to the cathode filament 9.
  • thermionic discharge device having a plurality of cathodes, energizing circuits respectively connected to said cathodes, a regulator for maintaining the current in said circuits substantially constant at difl'erent selected values, and means for automatically changing the setting of said regulator whenever a change in the excitatlon of said energizing circuits is efi'ected.
  • circuit means including a selector switch for creating in said device electronic discharges of unlike values for different focal settings, a
  • regulator for maintaining such electronic discharges substantially constant at selected values, and means including aselector switch interlocked with said first-mentioned switch for changing the setting of said regulator to correspond with a selected electronic discharge.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Electron Sources, Ion Sources (AREA)
  • X-Ray Techniques (AREA)
  • Particle Accelerators (AREA)
  • Microwave Tubes (AREA)
  • Cold Cathode And The Manufacture (AREA)

Description

ay 9, 1933. w. D. COOLIDGE "1,907,508
\THERMIONIG APPARATUS Filed Nov. 4, 1929 lnventcgfz 1 WilI iar iD. Coolidge.
" His Attorney Patented May 9, 1933 UNITED STATES PATENT OFFICE" WILLIAM D. COOLIDGE, F SCHENEGTADY, NEW YORK, ASSIGNOR TO GENERAL ELECTRIC COMPANY, A CO BPORATION OF NEW YORK 'rnnnmroivlc APPARATUS Application filed November 4, 1929. Serial No. 404,609.
7 The present invention relates to thermionic devices, such, for example, as X-ray tubes, provided with a plurality of cathodes, which are capable of being used interchangeably.
In X-ray tubes to which 7 my invention is particularly applicable, said cathodesmay tion in order to avoid overheating of the target at the focal spot.
In such an arrangement serious disturb ances and damage may occur by overheating the focal area of the anode should the temperature, and hence the emissivity, of the cathode be altered inadvertently during'operation.
In accordance with my invention means are provided for controlling the current in the heating circuits of the respective cathode circuits of an X-ray tube, or.other thermionic device, the setting of said control means being. sointerlocked with switching means for selectively exciting the cathodes of the discharge tube that a change from one cathode to another automatically fixes the setting of regulating means for the cathode selected for operation. I
The novel features of my invention will be set forth with greater particularity in the appended claims. For a more complete understanding thereof reference may be had to the accompanying drawing taken in connection with the accompanying description.
Fig. 1 of the drawing shows somewhat diagrammatically an X-ray apparatus embodying my invention; Fig.2 illustrates a modification adapted particularly for operation ,in connection with oil-immersed X-ray devices, and Fig. 3 is a detail View of a cathode structure which is employed in an X-ray tube used in my improved apparatus.
The system illustrated in Fig. 1 includes.
ly larger area with some sacrifice of definia. thermionic X-ray device comprising a bulbous container 2, containing a cathode structure 3 and an anode or target 4, stem 5 of which leads to an external radiator or heat dlsslpator 6. 'The cathode structure 3, as shown in Fig. 3, comprises a cup-shaped focusing device 7 in which are provided spirally Wound filaments 8 and 9. These filaments have separate supply conductors 11 .and 10 respectively and a common return conductor 12. The filaments are so positioned within the focusing device 7 that when either filament is heated to an electron:emitting temperature, that electrons emitted by it, (also 7 known as cathode rays) will be projected 5 upon a target 14 of highly refractory metal, such for example as tungsten, which forms part of the anode 5. The electrons emitted from either ofthe filaments 8 or 9 are caused to impinge upon a focal 'spot on the target, the size of the focal spots depending upon the position of the filaments 8 and 9 within the focusing cup 7. The size and excitation of the filaments 8 and 9 are so chosen that a relatively small electron current is caused to be emitted by the filament 8 and a larger current is caused to be emitted by the filament 9, thus permitting different X-ray outputs to be obtained from the X-ray tube. The electrostatic focusing effect of the device 7 causes the cathode rays fromthe respective filaments to be focused on focal spots of correspondingly different areas. To secure maximum definition the focal spot should be as small as practicable without overheating the anode'metal at the focal spot during a normal period of operation.
Heating current for the cathode filament is obtained from the secondary of theatransformer 15, the primary of which is connected to the supply mains 16. Either one of the filaments 8 or 9 may be connected in circuit with the transformer 15 by aselector switch 17, that is, when the selector switch is moved to the. left to the contact 18 so as to complete the circuit of the conductor 10, heating current will flow from the secondary of the transformer 15, through the conductor 10, through the filament-9, returning through the conductor 12,
which includes a resistance 19, to the opposite terminal of the secondary of the transformer 15. When the switch 17 is moved to the right to the contact 20, then the (ircuit of the cathode 8' is energized through the conductors 11 and 12, in series with the resistance 19. High potential current for generating X-rays is furnished by the secondary of the step-up transformer 22, through the conductors 23- and 24 in series with one or both of the windings 25 and 26 of a regulator, the winding 25 only being energized when the regulator circuit switch 27 makes contact with the conductor 28 and both windings being energized when the switch 27 makes contact with the conductor 29. Current for energizing the transformer 22 is drawn through the conductors 30 from the main 16, a hand-operated switch 31 being provided to open and close the circuit.
The resistance 19 is caused to be shortcircuited periodically by the vibrations of a magnetic member or armature 33 which is juxtaposed to the core 34 of the windings 25 and 26. The vibrations of this armature opens and closes contacts 35 in a circuit 36 shunting the resistance 19. The relative periods of make and break of the contacts 35 determine the effect of the resistance 19 in the respective cathode circuits. A regulator of the form here shown is more fully described in U. S. Letters Patent No.
' 1,653,102 issued to William K. Kearsley on December 20, 1927 By means of the operation of such a regulator the electron-emissivity of the cathode and hence the space current of the X-ray tube is maintained substantially constant regardless of variations of voltage of the power supply.
The switches 17 and 27 are connected to one another by an interlock member 37.
which prevents switch 17 being operated without at the same. time operating the other switch 27.
It will be observed that in the described I thereby energizing only the winding 25 of" the regulator. When the switch 17 is moved to the right. in' contact with the conductor 11 it energizes the cathode 8 which is intended for operation with a smaller heating current. Through the simultaneous movement of the switch 27 into contact with the conductor 29, both windings of the regulator will be energized thereby increasing the rel ative duration of the break periods during which the resistance 19 is included in the heating circuit of the cathode and thus decreasing the efl'ective value of the heating current. As a consequence of the interlock of the switches 17 and 27, the setting ofthe accuses X-ray tube can be shifted from one setting to another with the assurance that whenever the focus of the X-ray is changed to provide a smaller focal spot for sharper definition or for any other reason that the space current in the X-ray tube at the same time will be decreased and maintained at a lower value.
In the arrangement shown in Fig. 2 the re ulator is connected in the primary circult of transformers 40 and 41, the secondary circuits; of which are respectively connected to the cathode supply conductors 10, 11 and 12. The windings 42 and 43 of the regulator 44 are connected in series with the secondary windings 45 and 45 of the transformer 46 which supplies high potential operating current by the conductors 47 and 48 to the X-ray device. A regulable resistance 54 may be inserted in shunt with the primary winding'of transformer 40 to permit of hand adjustment of the value of the heating current. A similar resistance 55 is inserted in shunt with the primary winding of the transformer 41. The arrangement shown in this figure is particularly suitable for operation with a device in which the X-ray tube as well as the high potential transformer 46 and the low potential filament transformers 40 and 41 are'all contained within an enclosure or tank 49 which contains a body of oil, or other suitable insulatin fluid.
When the selector switch 17 of the outfit shown in Fig. 2 is moved to the right in contact with a conductor 50 in the primary circuit of the transformer 41 the switch 27, which is interlocked with the regulator circuit switch 17 .mnst also be moved to the right in contact with the conductor tioned that the effective value of the heating current supplied to the filament 8 maintains this filament at the desired temperature.
When the switch 17 is moved to the left in contact with a conductor 56, the cathode heating transformer 40 is energized, thereby suppling heating current to the cathode filament 9. This movement of the switch 17, by the action of the interlock 37, simultaneously causes the switch 27 to close the circuit 57, thereby energizing only the windings 42 of the regulator. This causes the duration of the periods during which the resistance 19 is short-circuited in the primary of the transformer 40 to be longer as comare projected being larger overheating of the metal will not occur.
What I claim as new and desire to secure by Letters Patent of the United Statesis:
1. The combination of an X-ray tube having an anode and a plurality of cathodes ,arranged to deliver electron discharges upon unlike focal areas of said anode, a plurality of circuits connected to respectively energize said cathodes, a resistor common to both of said circuits, a regulator having a winding and contacts operated thereby to inter-' mittently short circuit said resistor in response to variations of current between one of said cathodes and said anode, a source of electric energy, switching means for selectively connecting said cathode circuits to said source, and means interlocked with said switching means for changing the excitation of thewinding of said regulator to maintain the excitation of said cathodes at different current values. I
2. The combination of an electrical discharge device having charge-receiving means and a plurality of cathodes arranged in said device to deliver electron discharges upon unlike focal areas of said means, means for controlling the electron emissivities of'said cathodes, separate circuit connections arranged to energize either of said cathodes,
and means for simultaneously changing the setting of said control means by a selection of energizing circuits whereby the output of the cathode selected is maintained at a predetermined value.
3. The combination of a thermionic discharge device having a plurality of cathodes, energizing circuits respectively connected to said cathodes, a regulator for maintaining the current in said circuits substantially constant at difl'erent selected values, and means for automatically changing the setting of said regulator whenever a change in the excitatlon of said energizing circuits is efi'ected.
4. The combination of an X-ray tube provided with a target and a plurality of cathode elements constructed to project upon 5. The combination of an X-ray tube which is provided with a plurality of cathodes constructed to' project electron streams upon focal spots of unlike area,'a plurality of cathode energizing circuits, means for selectively energizing said supply circuits, a regulator for controlling the energy delivered to said X-ray tube, and means interlocked with said selective energizing means for changing the setting of said regulator.
6.'The combination of an electric device which is operable with focussed electron discharges of different focal settings, circuit means including a selector switch for creating in said device electronic discharges of unlike values for different focal settings, a
regulator for maintaining such electronic discharges substantially constant at selected values, and means including aselector switch interlocked with said first-mentioned switch for changing the setting of said regulator to correspond with a selected electronic discharge.
7'. The combination of an electric device which is operable with a plurality of focussed electron discharges oflunlike focal settings, means for maintaining in said device unlike electronic discharges of substantially constant value for each such focal setting, and a switch for selecting focal settings, said switch being interlocked with a member of said maintaining-means whereby the setting of said maintaining means is altered automatically by a change of focal setting.
In witness whereof, I have hereunto set my hand this 1st day of November, 1929.
' W'ILLIAM D. COOLIDGE.
US404609A 1929-09-19 1929-11-04 Thermionic apparatus Expired - Lifetime US1907508A (en)

Priority Applications (8)

Application Number Priority Date Filing Date Title
US393819A US1946286A (en) 1929-09-19 1929-09-19 X-ray equipment
US404609A US1907508A (en) 1929-11-04 1929-11-04 Thermionic apparatus
GB28091/30A GB355978A (en) 1929-11-04 1930-09-19
FR704038D FR704038A (en) 1929-11-04 1930-09-19 Improvements to x-ray apparatus and equipment.
FR39185D FR39185E (en) 1929-11-04 1930-10-24 Improvements to x-ray apparatus and equipment
GB32540/30A GB366473A (en) 1929-11-04 1930-10-29 Improvements in and relating to x-ray apparatus
BE374674D BE374674A (en) 1929-11-04 1930-11-04 improvements to x-ray apparatus and equipment
US610866A US1946288A (en) 1929-09-19 1932-05-12 Electron discharge device

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2492304A (en) * 1948-05-08 1949-12-27 Westinghouse Electric Corp Tandem x-ray tube stabilizer
US2691735A (en) * 1951-06-15 1954-10-12 Hartford Nat Bank & Trust Co X-ray tube
US2712075A (en) * 1945-01-26 1955-06-28 Bevis Murray Automatic emission control circuit
US2900542A (en) * 1954-09-22 1959-08-18 Harry B Mceuen X-ray apparatus
US3110810A (en) * 1958-10-30 1963-11-12 Philips Corp Device for optionally switching on either of two filament cathodes of an X-ray tube

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2712075A (en) * 1945-01-26 1955-06-28 Bevis Murray Automatic emission control circuit
US2492304A (en) * 1948-05-08 1949-12-27 Westinghouse Electric Corp Tandem x-ray tube stabilizer
US2691735A (en) * 1951-06-15 1954-10-12 Hartford Nat Bank & Trust Co X-ray tube
US2900542A (en) * 1954-09-22 1959-08-18 Harry B Mceuen X-ray apparatus
US3110810A (en) * 1958-10-30 1963-11-12 Philips Corp Device for optionally switching on either of two filament cathodes of an X-ray tube

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BE374674A (en) 1930-12-31
GB355978A (en) 1931-09-03
GB366473A (en) 1932-01-29

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