US1287598A - Xray-tube. - Google Patents

Xray-tube. Download PDF

Info

Publication number
US1287598A
US1287598A US16771217A US16771217A US1287598A US 1287598 A US1287598 A US 1287598A US 16771217 A US16771217 A US 16771217A US 16771217 A US16771217 A US 16771217A US 1287598 A US1287598 A US 1287598A
Authority
US
United States
Prior art keywords
cathode
ray tube
tube
anode
stem
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US16771217A
Inventor
Thomas B Rider
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
GEORGINA DE CASTRO-DANZIGER NEE MCCLELLAN
GEORGINA DE CASTRO DANZIGER NEE MCCLELLAN
Original Assignee
GEORGINA DE CASTRO DANZIGER NEE MCCLELLAN
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by GEORGINA DE CASTRO DANZIGER NEE MCCLELLAN filed Critical GEORGINA DE CASTRO DANZIGER NEE MCCLELLAN
Priority to US16771217A priority Critical patent/US1287598A/en
Application granted granted Critical
Publication of US1287598A publication Critical patent/US1287598A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/02Channels characterised by the type of signal
    • H04L5/06Channels characterised by the type of signal the signals being represented by different frequencies

Definitions

  • My invention relates to improvements in X-ray tubes; and the objects of my improvements are, to regulatethe focus between the cathode and the anode in an X-ray tube; to
  • 1 designates the glass globe of the X-ray tube
  • 2 designates an extension glass tube closed at the end 3 surrounding a steel tube 4.
  • a wire 5 is fused into and through the closed end 3 outwardly forming one of the,
  • a third extension'cnd 12 is pro vided for thephemical vacuum regulator, a
  • the threaded bore 20 is eccentrically positioned in relation to the concaved face 21 of the cathode member 19, and, having the cathode made of material which can be influenced by a magnet, or having a piece 22 of suitable material secured to the side of the cathode, it will easily be understood that the cathode can be operated from the outside by holding' a magnet to the glass extension tube 16 near the cathode and then turn the whole X-ray tube, or move the magnet around the glass extension tube 16 in the direction in which the cathode is wanted to turn, and, in thus turning the cathode'on the eccentrically disposed bore, it will be understood that the focus can be directed toward difl'erent points on the surface of the anode.
  • Having the cathode threaded on the stem 17 serves also to lengthen or shorten the focal distancebetween the cathode 19 and the anode 7, as will also be easily understood.
  • the cathode member 19 can be turned on the threaded end 18 of the stem 17 by shaking the X-ray tube, as the overweight formed by the eccentric position of the cathode member and the extra weight 22 formed on the cathode will cause the cathode to turn,"theweighted side of the cathode keeping on the undersidewhile'the X-ray tube is shaken and simultaneously turned.
  • a cathode having its, supporting means eccentrically disposed in relation to the focusing face, and having a weight-body provided on one side of the cathode of suitable material to be influenced by a magne't from the outside of the X-ray tube.
  • an anode projecting into the X-ray tube from one side
  • a cathode stem projecting into the X-ray tube from the opposite side and threaded on its free end
  • a cathode member eccentrically turnably 'mounted on the threaded end of the stem for focusing the cathode toward different points inthe surface of the anode.
  • anode projecting into the X-ray tube from one side
  • a cathode stem projecting into the X-ray tube from the opposite side
  • a cathode member turnably mounted on the end of the stem having a wncaved face transverse to the stem, the center of the conceived face being eccentrically disposed to the center of the supporting stem.
  • an anode projecting into the X'ray tube from one side
  • a cathode stem projecting into the X-ruy tube from the opposite side and threaded on its free I end
  • a cathode member turnably mounted on the threaded end of the stem having a conceved face toward the anode transverse to the stem, the center of the concaved face being eccentrically disposed in relation to the center of the supportingstem
  • means formed on the cathode member for turning the cathode'in-the X-ray tube when so desired.
  • @epter of thin patent may be obtained for five cent: each, by addressing the "iiommfiaeienex' e! Estonia, Washington, E. e,

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • X-Ray Techniques (AREA)

Description

T. B. RIDER.
X-RAY TUBE.
APPLICATION FILED .mn l0, $941..
Patented Dec. 10, 1-918.
THOMAS B. RIDER, or Los ANGELES, CALIFORNIA, ASSIGNOR, BY MESNE ASSIGNMENTS,
OF ONE-HALF T0 GEOBGIET A DE CASTRO-DANZIGER, mil: MCCLELLAN, OF LOS ANGELES,
CALIFORNIA.
X-RAY TUBE.
Specification of Letters Patent. Patented Dec. 10, 1 91 8. I
. Application filed May 10, 1917, Serial No. 167,712.
My invention relates to improvements in X-ray tubes; and the objects of my improvements are, to regulatethe focus between the cathode and the anode in an X-ray tube; to
- provide a cathode which will bring the focus slightly ofi the center on the anode; to provide an X-ray tube which allows a regulation of the focal distance while the X-ray tube is in use; toprovide a cathode which allows the regulation of the focus so as to meet the anode in different points after the first met point has been ruined in the surface of the anode; the invention consisting in the construction, combination'and arrangement of devices hereinafter more fully described and claimed, and illustrated in the accompanying drawing, in which The figure is an assembly of an X-ray tube with my device inserted.
Similar numbers refer to similar parts throughout the papers.
1 designates the glass globe of the X-ray tube, 2 designates an extension glass tube closed at the end 3 surrounding a steel tube 4. A wire 5 is fused into and through the closed end 3 outwardly forming one of the,
connections 6 forthe electric circuit and inwardly connecting to the steel tube 4. An anode 7 is secured to the free end of the steel tube having preferably a tungsten disk 8 inserted into the surface. Another glass extension tube 9 serves as a holder for theauxiliary anode 10, which is*connected to the connection of the main anode by the wire 11. A third extension'cnd 12 is pro vided for thephemical vacuum regulator, a
' stem is the concave-faced cathode member 19. As will be seen in the drawing, the threaded bore 20 is eccentrically positioned in relation to the concaved face 21 of the cathode member 19, and, having the cathode made of material which can be influenced by a magnet, or having a piece 22 of suitable material secured to the side of the cathode, it will easily be understood that the cathode can be operated from the outside by holding' a magnet to the glass extension tube 16 near the cathode and then turn the whole X-ray tube, or move the magnet around the glass extension tube 16 in the direction in which the cathode is wanted to turn, and, in thus turning the cathode'on the eccentrically disposed bore, it will be understood that the focus can be directed toward difl'erent points on the surface of the anode.
Having the cathode threaded on the stem 17 serves also to lengthen or shorten the focal distancebetween the cathode 19 and the anode 7, as will also be easily understood.
It will furthermore be understood that the cathode member 19 can be turned on the threaded end 18 of the stem 17 by shaking the X-ray tube, as the overweight formed by the eccentric position of the cathode member and the extra weight 22 formed on the cathode will cause the cathode to turn,"theweighted side of the cathode keeping on the undersidewhile'the X-ray tube is shaken and simultaneously turned.
I am aware that X-ray'tubes of various constructions are known, but to lengthen the life of X-ray tubes and improve the devices by the several means described above, I claim 1. In an X-ray tube a cathode having turnable supporting means eccentrically disposed in relation to the focusing face.
2. In an X-ray tube a cathode having its, supporting means eccentrically disposed in relation to the focusing face, and having a weight-body provided on one side of the cathode of suitable material to be influenced by a magne't from the outside of the X-ray tube.
3. In an X-ray tube" an anode projecting into the X-ray tube from one side, a cathode stem projecting into the X-ray tube from the opposite side and threaded on its free end, and a cathode member eccentrically turnably 'mounted on the threaded end of the stem for focusing the cathode toward different points inthe surface of the anode.
' 4. In an X-ray tube an anode projecting into the X-ray tube from one side, a cathode stem projecting into the X-ray tube from the opposite side, and a cathode member turnably mounted on the end of the stem having a wncaved face transverse to the stem, the center of the conceived face being eccentrically disposed to the center of the supporting stem.
5. In an X-ray tube an anode projecting into the X'ray tube from one side, a cathode stem projecting into the X-ruy tube from the opposite side and threaded on its free I end, a cathode member turnably mounted on the threaded end of the stem having a conceved face toward the anode transverse to the stem, the center of the concaved face being eccentrically disposed in relation to the center of the supportingstem, and means formed on the cathode member for turning the cathode'in-the X-ray tube when so desired.
In testimony n 'hereofl hereunto aflix my signature in the presence of two Witnesses.
THOMAS B. RIDER.
@epter of thin patent may be obtained for five cent: each, by addressing the "iiommfiaeienex' e! Estonia, Washington, E. e,
US16771217A 1917-05-10 1917-05-10 Xray-tube. Expired - Lifetime US1287598A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US16771217A US1287598A (en) 1917-05-10 1917-05-10 Xray-tube.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US16771217A US1287598A (en) 1917-05-10 1917-05-10 Xray-tube.

Publications (1)

Publication Number Publication Date
US1287598A true US1287598A (en) 1918-12-10

Family

ID=3355165

Family Applications (1)

Application Number Title Priority Date Filing Date
US16771217A Expired - Lifetime US1287598A (en) 1917-05-10 1917-05-10 Xray-tube.

Country Status (1)

Country Link
US (1) US1287598A (en)

Similar Documents

Publication Publication Date Title
US1287598A (en) Xray-tube.
US2436845A (en) Coaxial spark gap
US793112A (en) Vacuum-tube.
US1039162A (en) Electric-arc lamp.
US1305295A (en) Incandescent electric lamp
US1822360A (en) Projection lamp
US492201A (en) harper
US984726A (en) Vacuum-tube.
US982552A (en) X-ray tube.
US219771A (en) Improvement in electric lamps
USD34660S (en) Design for an incandescent gas arc-lamp
US1361099A (en) Thermionic device
US953140A (en) Arc-lamp.
US1218423A (en) Roentgen-ray tube.
US735708A (en) Electric-arc lamp.
US280337A (en) Incandescent electric lamp
US774482A (en) Talking-machine.
Vockner Quintett (B dur) für Klavier, zwei Violinen, Viola und Violoncell, Op. 70.
US740428A (en) Spark-gap.
US762115A (en) Electric-arc lamp.
US502948A (en) Electric-arc lamp
GB191308774A (en) Improvements in Cinematographic Projectors.
DE328223C (en) Device for determining current fluctuations
Kuhl Daun Gerveys
Kriens et al. Cadenza for the Beethoven Violin concerto.