US2270531A - X-ray apparatus - Google Patents

X-ray apparatus Download PDF

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Publication number
US2270531A
US2270531A US302344A US30234439A US2270531A US 2270531 A US2270531 A US 2270531A US 302344 A US302344 A US 302344A US 30234439 A US30234439 A US 30234439A US 2270531 A US2270531 A US 2270531A
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cathode
dial
ray tube
voltage
cathodes
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US302344A
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Kloos Gerard
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North American Philips Co Inc
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Philips Metalix Corp
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Priority to US302344A priority Critical patent/US2270531A/en
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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

Definitions

  • My invention relates to X-ray apparatus using a multi-focus X-ray tube.
  • the invention is not limited thereto but can be used with multi-focus tubes in general.
  • the main object of my invention is to provide an apparatus in which the proper focus, depending upon the exposure time selected, is automatically made operative.
  • Another object of my invention is to provide means for keeping the current of the X-ray tube substantially constant, or at least within predetermined limits, when different operating voltages are used.
  • timing-switching means which are so connected with the cathodes that the cathode adapted to produce the small focal spot will be operative only the voltage across the operative cathode will be varied with changes in the operating voltage of the X-ray tube.
  • the apparatus shown in the drawing comprises an X-ray tube I, two cathode-heating transformers 2 and 3 having primary windings 4 and 5 respectively and secondary windings 6 and I respectively, a high-tension transformer 8 having a low-tension primary winding 9 and two highend is connected to one end of winding I I, through a, milliammeter I8 which serves to measure the X-ray tube current.
  • the other end of winding II is connected through conductors I9 and 20 to one end of cathode I6 to complete the operating circuit of the X-ray tube.
  • the connecting point of cathodes I5 and I6 is connected through a conductor 2
  • the voltage-adjusting device I3 comprises an auto-transformer 23 adapted to be connected through a main switch 24 across an A. C. supply, for instance a 220 volts cycle supply, an impedance 25, shown as a resistance, and a sliding contact member 26.
  • Member 26 comprises a block of insulating material adapted to slide on a suitable guide and carrying a finger 2i engaging the turns of transformer 23 and a finger 28 engaging the resistance 25.
  • Finger TI is connected through a flexible lead and conductor 29 to one end of winding 9 whereas finger 28 is connected through a flexible lead to one end of transformer 23.
  • the timing-switching device I2 comprises a dial 30 which is calibrated in seconds, an electrical timer 3
  • the dial 36 is provided with a cam 42 for a purpose later to be described.
  • is controlled by the position of dial 36 and a push button 34 serves to initiate the operation of the timer which energizes relay 32 for the desired time period.
  • electrically-operated timers of the above type are well-known in the art, further illustration or description of the same is believed unnecessary.
  • a switch arm 35 pivoted at 36 has its heel point connected through conductors 31 and 38 to one end of the transformer 23 and is adapted to engage either of two 'fixed contacts 39 and 40 connected to the free ends of windings 4, and -5 respectively.
  • Arm 35 is provided with a pin 5
  • the main switch 24 In operating the device, the main switch 24 is closed which energizes transformer 23 and also energizes either cathode I5 and I6, depending upon the position of dial 33.
  • the cathode energizing circuit for the position shown can be traced from one side of switch 24 through conductors 38 and 31, switch arm 35-, contact-45,
  • the desired operating voltage for the exposure is obtained by moving the slider member 26 which controls the voltage to be applied across 23 to the other end of winding 23.
  • the operating voltage applied across the Xray tube can be measured by a voltmeter 53 having one terminal connected to conductor 29 and its other terminal connected through a conductor 54 to the heel of arm 50.
  • Movement of slider member 26 also adjusts the voltage to be applied across either cathode I5 or cathode 16 by changing, the amount of the resistance 25 which is included in the cathode energizing circuit.
  • the exposure time is then set by means of dial 30, whereby either winding 4 or 5and thus either cathode IE or l5 are energized.
  • Push button 34 is then pressed with the result that arma-' ture 50 engages contact 33 to energize winding 9 and apply the operating Voltage to the X-ray tube.
  • armature 50 is opened and additional exposures of the same or different durations may be made.
  • An X-ray apparatus comprising an X-ray tube having an anode and a plurality ofincandescible cathodes including a cathode adapted to produce a small focal spot and a cathode adapted to produce a large cathode spot, means for applying operating voltage to said X-ray tube, means for applying energizing voltage to said cathodes, timing means for controlling the exposure time, and means controlled by said timing means and controlling said cathode energizing means to automatically and selectively energize the large focal spot cathode for only short exposure times and the small focal-spot cathode for long exposure times.
  • An X-ray apparatus comprising an X-ray tube having an anode, acathode adapted to produce a small focal spot, and a cathode adapted to produce a large focal spot, means for applying operating voltage across the tube, means for applying energizing voltage to the cathodes, means for timing the exposure including a manuallyop'erated dial for setting the exposure, and means controlled by said dial and controlling said cathod'e energizing means to make the large focal spot cathode operative only when the dial is set for an exposure time below a predetermined value and to make the small focal spot cathode operative only when the dial is set for a higher exposure time.
  • An X-ray apparatus comprising an X-ray tube having an anode and a plurality of incandescible cathodes, means for applying operating voltage to said X-ray tube including a voltageregulating device, means for timing the exposure including a timing device, means for energizing said cathodes including a voltage-regulating device having a dial for setting the exposure time, means associated with said latter means and said dial to make said cathodes selectively operative in accordance with the setting of the dial, and a common control member for said voltageregulating devices to decrease the cathode energizing voltage with increases in the X-ray tube operating voltage.
  • An X-ray apparatus comprising an X-ray tube having an anode, a'cathode adapted to produce a large focal spot, and a cathode adapted to produce a small focal spot, means for applying an operating voltage to said X-ray tube including a voltagefregulating device, means for energizing said cathodes including a voltage regulating device, means for controlling the exposure time including a timing devicehaving a dial for setting the exposure time, means controlling the cathode energizing means to make the large iocalspot cathode operative only when the dial is set for an'expo'sure time below a predetermined value and to make the small focal spot cathode operative only when the dial is set for a longer exposure time, and a common control member for said voltage-regulating devices to decrease the cathode energizing voltage with increases in the X -ray tube operating voltage.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • X-Ray Techniques (AREA)

Description

Jan. 20, 1942. G. KL OOS X-RAY APPARATUS Filed Nov. 1, 1939 II\IIVENTOR.. GERARD KLOOS Patented Jan. 20, 1942 X-RAY APPARATUS Gerard Kloos, Mount Vernon, N. Y., assignor to Philips Metalix Corporation, New York, N. Y.
Application November 1, 1939-, Serial No. 302,344
4 Claims. (01. 250-93) My invention relates to X-ray apparatus using a multi-focus X-ray tube.
I shall describe my invention with reference to X-ray tubes having two incandescible cathodes adapted to produce two focal spots, to be referred to as a small focal spot and a large focal spot. However, the invention is not limited thereto but can be used with multi-focus tubes in general.
When using a double-focus X-ray tube, it is the usual practice to use the small focus when taking longer exposures at low currents and to use the larger focus when taking shorter exposures at higher currents. In practice the changeover of the focus is usually effectedby a manual switch and if the operator does not select the proper focus the tube and particularly the target may be damaged.
The main object of my invention is to provide an apparatus in which the proper focus, depending upon the exposure time selected, is automatically made operative.
Another object of my invention is to provide means for keeping the current of the X-ray tube substantially constant, or at least within predetermined limits, when different operating voltages are used.
In accordance with the inventionl provide timing-switching means which are so connected with the cathodes that the cathode adapted to produce the small focal spot will be operative only the voltage across the operative cathode will be varied with changes in the operating voltage of the X-ray tube.
In order that my invention may be clearly understood and readily carried into effect I shall describe the same in more detail with reference to the accompanying drawing in which the single figure is a schematic view of an X-ray apparatus embodying the invention.
The apparatus shown in the drawing comprises an X-ray tube I, two cathode- heating transformers 2 and 3 having primary windings 4 and 5 respectively and secondary windings 6 and I respectively, a high-tension transformer 8 having a low-tension primary winding 9 and two highend is connected to one end of winding I I, through a, milliammeter I8 which serves to measure the X-ray tube current. The other end of winding II is connected through conductors I9 and 20 to one end of cathode I6 to complete the operating circuit of the X-ray tube.
The connecting point of cathodes I5 and I6 is connected through a conductor 2| to the connecting point of windings 6 and 'I and the free ends of cathodes l5 and I6 are connected through conductors 20 and 22 respectively to the free ends of windings 6 and I respectively.
The voltage-adjusting device I3 comprises an auto-transformer 23 adapted to be connected through a main switch 24 across an A. C. supply, for instance a 220 volts cycle supply, an impedance 25, shown as a resistance, and a sliding contact member 26. Member 26 comprises a block of insulating material adapted to slide on a suitable guide and carrying a finger 2i engaging the turns of transformer 23 and a finger 28 engaging the resistance 25. Finger TI is connected through a flexible lead and conductor 29 to one end of winding 9 whereas finger 28 is connected through a flexible lead to one end of transformer 23.
The timing-switching device I2 comprises a dial 30 which is calibrated in seconds, an electrical timer 3| and a relay 32 having a normallyopen armature 50 adapted to engage a contact 33 connected to one end of winding 9. The dial 36 is provided with a cam 42 for a purpose later to be described.
The time setting of the timer 3| is controlled by the position of dial 36 and a push button 34 serves to initiate the operation of the timer which energizes relay 32 for the desired time period. As electrically-operated timers of the above type are well-known in the art, further illustration or description of the same is believed unnecessary.
A switch arm 35 pivoted at 36 has its heel point connected through conductors 31 and 38 to one end of the transformer 23 and is adapted to engage either of two ' fixed contacts 39 and 40 connected to the free ends of windings 4, and -5 respectively. Arm 35 is provided with a pin 5| which is pressed against the edge of cam 42 by a spring 4|. Thus, when dial 3!! is set for a time less than a predetermined value, for instance less than one second, the arm 35 will engage contact 40 and when dial 30 is set for a longer exposure time arm 35 will engage contact 39. It should be noted that dial 30 is moved manually and is not moved by the timer 3!.
In operating the device, the main switch 24 is closed which energizes transformer 23 and also energizes either cathode I5 and I6, depending upon the position of dial 33. The cathode energizing circuit for the position shown can be traced from one side of switch 24 through conductors 38 and 31, switch arm 35-, contact-45,
winding 5, conductor 52, a portion of resistance 25, and finger 28 to the other pole of switch 24.
The desired operating voltage for the exposure is obtained by moving the slider member 26 which controls the voltage to be applied across 23 to the other end of winding 23. The operating voltage applied across the Xray tube can be measured by a voltmeter 53 having one terminal connected to conductor 29 and its other terminal connected through a conductor 54 to the heel of arm 50.
Movement of slider member 26 also adjusts the voltage to be applied across either cathode I5 or cathode 16 by changing, the amount of the resistance 25 which is included in the cathode energizing circuit.
The exposure time is then set by means of dial 30, whereby either winding 4 or 5and thus either cathode IE or l5 are energized. Push button 34 is then pressed with the result that arma-' ture 50 engages contact 33 to energize winding 9 and apply the operating Voltage to the X-ray tube. At the end of the exposure time armature 50 is opened and additional exposures of the same or different durations may be made.
Although I have described my invention with reference to specific examples and constructions I do not desire to be limited thereto because obvious modifications will appear to one skilled in the art.
What I claim is:
1. An X-ray apparatus comprising an X-ray tube having an anode and a plurality ofincandescible cathodes including a cathode adapted to produce a small focal spot and a cathode adapted to produce a large cathode spot, means for applying operating voltage to said X-ray tube, means for applying energizing voltage to said cathodes, timing means for controlling the exposure time, and means controlled by said timing means and controlling said cathode energizing means to automatically and selectively energize the large focal spot cathode for only short exposure times and the small focal-spot cathode for long exposure times.
2. An X-ray apparatus comprising an X-ray tube having an anode, acathode adapted to produce a small focal spot, and a cathode adapted to produce a large focal spot, means for applying operating voltage across the tube, means for applying energizing voltage to the cathodes, means for timing the exposure including a manuallyop'erated dial for setting the exposure, and means controlled by said dial and controlling said cathod'e energizing means to make the large focal spot cathode operative only when the dial is set for an exposure time below a predetermined value and to make the small focal spot cathode operative only when the dial is set for a higher exposure time.
3. An X-ray apparatus comprising an X-ray tube having an anode and a plurality of incandescible cathodes, means for applying operating voltage to said X-ray tube including a voltageregulating device, means for timing the exposure including a timing device, means for energizing said cathodes including a voltage-regulating device having a dial for setting the exposure time, means associated with said latter means and said dial to make said cathodes selectively operative in accordance with the setting of the dial, and a common control member for said voltageregulating devices to decrease the cathode energizing voltage with increases in the X-ray tube operating voltage.
4. An X-ray apparatus comprising an X-ray tube having an anode, a'cathode adapted to produce a large focal spot, and a cathode adapted to produce a small focal spot, means for applying an operating voltage to said X-ray tube including a voltagefregulating device, means for energizing said cathodes including a voltage regulating device, means for controlling the exposure time including a timing devicehaving a dial for setting the exposure time, means controlling the cathode energizing means to make the large iocalspot cathode operative only when the dial is set for an'expo'sure time below a predetermined value and to make the small focal spot cathode operative only when the dial is set for a longer exposure time, and a common control member for said voltage-regulating devices to decrease the cathode energizing voltage with increases in the X -ray tube operating voltage.
. GERARD KLOOS.
US302344A 1939-11-01 1939-11-01 X-ray apparatus Expired - Lifetime US2270531A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2607414A (en) * 1947-04-10 1952-08-19 Ritter Co Inc Apparatus for measuring time intervals
US2842677A (en) * 1951-02-03 1958-07-08 Licentia Gmbh X-ray apparatus
US3185782A (en) * 1961-03-30 1965-05-25 Theodore J Lakin Timer control system for electrical loads

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2607414A (en) * 1947-04-10 1952-08-19 Ritter Co Inc Apparatus for measuring time intervals
US2842677A (en) * 1951-02-03 1958-07-08 Licentia Gmbh X-ray apparatus
US3185782A (en) * 1961-03-30 1965-05-25 Theodore J Lakin Timer control system for electrical loads

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