US2049300A - X-ray device - Google Patents
X-ray device Download PDFInfo
- Publication number
- US2049300A US2049300A US399334A US39933429A US2049300A US 2049300 A US2049300 A US 2049300A US 399334 A US399334 A US 399334A US 39933429 A US39933429 A US 39933429A US 2049300 A US2049300 A US 2049300A
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- Prior art keywords
- cathode
- ray
- anode
- rectifier
- shank
- 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
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J35/00—X-ray tubes
- H01J35/02—Details
- H01J35/025—X-ray tubes with structurally associated circuit elements
Definitions
- H is Atborn'e y.
- My invention relates to X-ray devices, and more particularly to X-ray apparatus which is energized by rectified alternating current.
- the usual form of X-ray tube is provided with a filamentary cathode and a focusing cup for directing the electrons toward a cooperating anode. It has been found that when high-voltage alternating current is applied directly to the tube, the electrons impact with the target with such a force and are constrained to such a small area as to give rise to a hot spot on the target which constitutes a virtual electron-emitting cathode on the reverse half-cycles of voltage. This reverse current tends deleteriously to affect the filamentary cathode and serves to lower the rectifying efficiency of the tube.
- the rectifier usually takes the form of a thermionic valve and is connected reversely across the terminals of the X-ray tube, that is,
- An object of my invention is to simplify systerms of this character. This object is attained in brief by combining the valve or rectifier and the X-ray tube into a unitary compact structure.
- FIG. 2 shows a'modified construction of the tube
- Fig. 3 is a plan view of the rectifier cathode illustrated in Fig. 2
- Fig. 4 is an elevational view, partly 45 in section, of the X-ray cathode shank.
- numeral I designates an evacuated envelope containing a plurality of electrodes arranged about the longitudinal axis.
- the electrodes include a cathode 50 member which may take the form of a vertical spiral 2 surrounded by the usual focussing cup 3 and supported within the envelope by a shank 4,
- the shank member consists of a metallic tube 4, surrounding a sleeve 5 of insulation, and enclosing a conductor 6,
- the cathode 2 In opposed relation to the cathode 2 and cooperating therewith is the usual form of tungsten copper-backed anode 1 supported within the envelope by means of shank 8.
- the electrodes 2 and l constitute the X-ray device proper, in that elecl0 trons emitted by the cathode are accelerated toward the anode at such a velocity as to produce X-rays.
- the focusing cup 3 would normally cause the electrons to im- 15 pinge on a restricted area on the target, thus producing a hot spot which, in the case of alternating yoltage, causes reverse current and seriously impairs the efiiciency of the tube.
- a source of alternating current is particularly desirable for energizing purposes because of the facility with which it may be transformed into current of high voltage. Accordingly, in order to improve the operation of the tube under :alternating current conditions, I propose to utilize a thermionic valve or rectifier as contemplated by the prior art, and to provide a novel arrangement of the rectifier and X-ray device.
- the rectifying arrangement is constituted of a cathode 9, shown in the form of a longitudinal helix insulatingly supported in any suitable manner about the shank 8 and also of a cylindrical anode l0, which surrounds the cath-' ode.
- the cylinder I 0 conveniently may be sup- 'ported by stay-wires I l which terminate in a 001- 5 lar l2 secured to the shank; these wires in addition to supporting the rectifier anode l0 may also serve to conduct electrical energy thereto.
- Conductors l3 may be led out through the envelope from the cathode 9.
- the electrodes for producing X-rays as well as the rectifier electrodes, are thus mounted in a co-axial manner which lends simplicity to the manufacture and assembly of the structure as a whole.
- the cathodes 2 and 9 may be energized from any suitable source of electromotive force.
- the cathode 9 and anode It) may be connected in any suitable and well-known manner to an alternating current source by which the proper forward voltage is impressed across the electrodes 2 and l but substantially no reverse current is caused to flow therebetween.
- Fig. 2 shows an alternative arrangement in which the rectifier cathode may take the form 55 of a flat spiral l8, shown in plan in Fig. 3, and
- the rectifier anodef is preferably shaped as a metal plate or disk 2
- An X-ray tube comprising an envelope containing a cathode and an anode cooperating to produce X-rays when energized by alternating cur-. rent, and means within the envelope for rectifying the alternatingcurrent, said means'comprising a helical cathode and a cylindrical anode arconnection between the cylindrical anode and the cathode which cooperates with the X-ray- V HEINRICH KUNZ'.
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- X-Ray Techniques (AREA)
Description
H. KUNZ X-RAY DEVICE Filed Oct. 12, 1929 III? July 28, 1936.
IhVenGorI Hainr-ich Kunz,
H is Atborn'e y.
Patented July 28, 1936 Heinrich- Kunz, Erlangen, Germany,' assignorto.
General Electric Com New York M a r e cs Application October 12, 1929, Serial No. 399,334 In Germany October 26, 1928 1 Claim.
My invention relates to X-ray devices, and more particularly to X-ray apparatus which is energized by rectified alternating current.
The usual form of X-ray tube is provided with a filamentary cathode and a focusing cup for directing the electrons toward a cooperating anode. It has been found that when high-voltage alternating current is applied directly to the tube, the electrons impact with the target with such a force and are constrained to such a small area as to give rise to a hot spot on the target which constitutes a virtual electron-emitting cathode on the reverse half-cycles of voltage. This reverse current tends deleteriously to affect the filamentary cathode and serves to lower the rectifying efficiency of the tube. Accordingly, in the past, it has been proposed to utilize in connection with this form of X-ray tube a rectifier or valve through which the reverse current may find a 2O ready path, thereby precluding the effects referred to. The rectifier usually takes the form of a thermionic valve and is connected reversely across the terminals of the X-ray tube, that is,
' poled in such a manner as to offer substantially no more impedance to the flow of current than is oifered by the X-ray tube to current flowing in the opposite direction. The current drawn during each half-cycle from the energizing transformer thus remains substantially the same. While an arrangement of this sort is satisfactory in operation, it calls for a complicated layout of apparatus and takes up a great deal of space besides involving considerable expense.
An object of my invention is to simplify systerms of this character. This object is attained in brief by combining the valve or rectifier and the X-ray tube into a unitary compact structure.
The invention will be better understood when reference is made to the drawing in which Fig. 1
40 is an elevational View, partly broken away and.
partly in section, of the improved apparatus; Fig. 2 shows a'modified construction of the tube; Fig. 3 is a plan view of the rectifier cathode illustrated in Fig. 2; while Fig. 4 is an elevational view, partly 45 in section, of the X-ray cathode shank.
Referring more particularly to Fig. 1, numeral I designates an evacuated envelope containing a plurality of electrodes arranged about the longitudinal axis. The electrodes include a cathode 50 member which may take the form of a vertical spiral 2 surrounded by the usual focussing cup 3 and supported within the envelope by a shank 4,
shown in section in Fig. 4. The shank member consists of a metallic tube 4, surrounding a sleeve 5 of insulation, and enclosing a conductor 6,
which connects with the center or end terminal of the spiral 2. Energizing current may thus be transmitted to the latter by the shank 4 to which one terminal is connected, and also by the insulated conductor 6. 5
In opposed relation to the cathode 2 and cooperating therewith is the usual form of tungsten copper-backed anode 1 supported within the envelope by means of shank 8. The electrodes 2 and l constitute the X-ray device proper, in that elecl0 trons emitted by the cathode are accelerated toward the anode at such a velocity as to produce X-rays. When high voltage is impressed directly across the anode l and cathode 2, the focusing cup 3 would normally cause the electrons to im- 15 pinge on a restricted area on the target, thus producing a hot spot which, in the case of alternating yoltage, causes reverse current and seriously impairs the efiiciency of the tube. On the other hand, a source of alternating current is particularly desirable for energizing purposes because of the facility with which it may be transformed into current of high voltage. Accordingly, in order to improve the operation of the tube under :alternating current conditions, I propose to utilize a thermionic valve or rectifier as contemplated by the prior art, and to provide a novel arrangement of the rectifier and X-ray device.
In Fig. 1 the rectifying arrangement is constituted of a cathode 9, shown in the form of a longitudinal helix insulatingly supported in any suitable manner about the shank 8 and also of a cylindrical anode l0, which surrounds the cath-' ode. The cylinder I 0 conveniently may be sup- 'ported by stay-wires I l which terminate in a 001- 5 lar l2 secured to the shank; these wires in addition to supporting the rectifier anode l0 may also serve to conduct electrical energy thereto. Conductors l3 may be led out through the envelope from the cathode 9. The electrodes for producing X-rays as well as the rectifier electrodes, are thus mounted in a co-axial manner which lends simplicity to the manufacture and assembly of the structure as a whole.
The cathodes 2 and 9 may be energized from any suitable source of electromotive force. The cathode 9 and anode It) may be connected in any suitable and well-known manner to an alternating current source by which the proper forward voltage is impressed across the electrodes 2 and l but substantially no reverse current is caused to flow therebetween.
Fig. 2 shows an alternative arrangement in which the rectifier cathode may take the form 55 of a flat spiral l8, shown in plan in Fig. 3, and
supported from the X-ray anode shank 8 by a 7 gized through conductors (not shown) sealed in the envelope. The rectifier anodefis preferably shaped as a metal plate or disk 2| 'spacedin parallel relation with the plane of the spiral and secured in any'suitable way to the shank 4. If desired, the focusing cup 3 and the plate 2I may be combined into a single member.
Claims on the species of the invention shownin Fig. 2 are contained in the divisional applica- 2,o49,soo s tion, Serial No. 2,929, filed January 22, 1935; and
producing anode.
entitled X-ray devices. 7 c
What I claim asnew and desire to secure by Letters Patent of the United States is: 7
An X-ray tube comprising an envelope containing a cathode and an anode cooperating to produce X-rays when energized by alternating cur-. rent, and means within the envelope for rectifying the alternatingcurrent, said means'comprising a helical cathode and a cylindrical anode arconnection between the cylindrical anode and the cathode which cooperates with the X-ray- V HEINRICH KUNZ'.
10 ranged about the X-ray-producing anode, and a
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL32859D NL32859C (en) | 1928-10-26 | ||
DES88148D DE629421C (en) | 1928-10-26 | 1928-10-26 | Use of x-ray tubes for x-ray systems in Villard circuit |
FR679204D FR679204A (en) | 1928-10-26 | 1929-07-24 | Vacuum tube |
GB24850/29A GB335021A (en) | 1928-10-26 | 1929-08-14 | Vacuum tubes for producing rontgen rays |
US2929A US2088424A (en) | 1928-10-26 | 1935-01-22 | X-ray device |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE335021X | 1928-10-26 | ||
US2929A US2088424A (en) | 1928-10-26 | 1935-01-22 | X-ray device |
Publications (1)
Publication Number | Publication Date |
---|---|
US2049300A true US2049300A (en) | 1936-07-28 |
Family
ID=31994894
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US399334A Expired - Lifetime US2049300A (en) | 1928-10-26 | 1929-10-12 | X-ray device |
Country Status (1)
Country | Link |
---|---|
US (1) | US2049300A (en) |
-
1929
- 1929-10-12 US US399334A patent/US2049300A/en not_active Expired - Lifetime
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