US2132175A - X-ray apparatus - Google Patents

X-ray apparatus Download PDF

Info

Publication number
US2132175A
US2132175A US162840A US16284037A US2132175A US 2132175 A US2132175 A US 2132175A US 162840 A US162840 A US 162840A US 16284037 A US16284037 A US 16284037A US 2132175 A US2132175 A US 2132175A
Authority
US
United States
Prior art keywords
tube
anode
envelope
cathode
shield
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
US162840A
Inventor
Raymond R Machlett
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.)
Machlett Laboratories Inc
Original Assignee
Machlett Laboratories Inc
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 Machlett Laboratories Inc filed Critical Machlett Laboratories Inc
Priority to US162840A priority Critical patent/US2132175A/en
Application granted granted Critical
Publication of US2132175A publication Critical patent/US2132175A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J5/00Details relating to vessels or to leading-in conductors common to two or more basic types of discharge tubes or lamps
    • H01J5/02Vessels; Containers; Shields associated therewith; Vacuum locks
    • H01J5/06Vessels or containers specially adapted for operation at high tension, e.g. by improved potential distribution over surface of vessel

Definitions

  • the invention is concerned with devices of the kind referred to having novel features of construction which increase the life of the devices and improve their operation.
  • the principles of 0 the invention may be embodied in thermionic discharge devices of various kinds and for various purposes, but, since the invention may be utilized to special advantage in high vacuum hot cathode rectifier tubes, a tube of that type containing the new features will be described in detail for purposes of explanation. It is to be understood, however, and will be readily apparent that'the utility of the invention is not limited to devices of that particular kind.
  • a high vacuum hot cathode rectifier tube depends'for its operation on the well known rectifying action of an electron-emitting filament opposing a cold plate in a vacuum tube.
  • Such a valve tube is always operated below the saturation value and it is so constructed that the amount of current required to pass through it in the performance of its function flows through with a negligible voltage drop when the cathode is negative.
  • On the succeeding half wave, during which 3 the plate or anode is negative no current flows and when the tube is blocking, that is, when the anode is negative, the potential of the anode with respect to the cathode, the tube walls, and other surrounding objects may become very high.
  • valve tubes as heretofore constructed will, under the new conditions, become gassy and inoperative after a short period of use.
  • This degeneration of the tube I have found to be caused by field currents within the tube which bring about bombardment of some of its unshielded parts and thus cause a liberation of undesirable gas.
  • the electric fields around the tube when installed in the new'equipment are much stronger than those occurring in equipment of the older style and the expedients previously used to avoid. the undesirable effects referred to are now insufficient for the purpose.
  • the present invention is, accordingly, directed to the provision of a valve tube which will operate satisfactorily for long periods of time when installed in modern generating apparatus of the compact type and immersed in oil.
  • the new tube includes the usual envelope, filament, and anode, and, in addition, it is provided with an external metallic shield which is connected to the anode of the tube and encloses the anode neck, the
  • the shield Since the shield is directly connected to the anode, its potential is the same as that of the anode and when the latter attains a high negative potential in operation, a similar field is produced around the outside of the tube. With the development of the external field, undesirable bombardment of the glass walls and other delicate parts of the tube is avoided and rapid'degeneration of the tube is prevented.
  • Figure 1 is a longitudinal sectional view of a valve tube constructed in accordance with the principles of the invention.
  • Figure 2 is a diagram illustrating the use of the new tube in high voltage generating equipment.
  • the tube illustrated includes an envelope I0 having an enlarged central portion H and the usual necks l2 and I3 extending therefrom.
  • the end portion of the tube is brought back into the neck l2 in the usual way to provide a support for the filament l3, which is mounted within a shield l4 and is connected to lead-in wires l5 sealed through the envelope wall.
  • ode 16 which is in conventional form and is mounted on a reentrant end portion I! of the envelope extending into the neck I3.
  • the anode has a stem [8 which is sealed through the envelope wall and at its outer end, the stem is provided with a terminal IS.
  • the tube is also provided with the usual end caps 20 and other features of standard construction.
  • mounted on the anode stem in electrical connection with the terminal 19 is a metallic shield 2
  • the shield is made of any desired metal and the rim at its open end is preferably rolled upon itself, as indicated at 2P
  • the shield preferably extends somewhat beyond the face of the anode in the direction of the cathode, as illustrated.
  • FIG. 2 A typical example of an X-ray apparatus in which the new'valve tube is employed is illustrated in Figure 2.
  • This apparatus is for the production of 400,000 volt X-rays and all parts thereof are completely oil-immersed, the grounded metal container or housing which encloses the apparatus and the oil in which it is immersed being omitted from the drawing.
  • the entire apparatus occupies a small space and its various component parts are in close proximity to one another and to the walls of the container.
  • the apparatus illustrated employs the socalled Villard or voltage doubling circuit, each half of which builds up a potential of 200,000 volts from ground, positive on one side and negative on the other.
  • the apparatus includes a pair of transformers, of whichthe secondaries 22, 23 only are shown, and one end of each secondary is connected through a condenser 24, 25, to ground at'26, 21.
  • Connected to ground and to the other terminal of each secondary is a valve tube 28,, 28 of the new construction, the tubes being connected in reverse arrangement, as illustrated. From the points of junction 30, 3! of the transformer secondaries and, the tubes are conductors 32, 33 leading, respectively, to the anode 34 and cathode 35 of an X-ray tube 36.
  • the cathode filament of the X-ray tube is heated by current supplied by the'secondary 37 of a transformer, andthe cathode filaments of the valve tubes 28, 29 are heated, by current supplied by the secondaries 38, 39, respectively, of the transformers.
  • the connections are such that current at a voltage of 400,000 volts Opposing the filament is the anflows through the X-ray tube on successive half waves, part of the voltage being supplied by the output of the transformer secondaries 22, 23, and the remainder by the condensers 24, 25.
  • valve tubes of the new construction were then installed in the equipment and their operation proved entirely satisfactory. The reason for this is that the shield on each tube maintains an external field in the vicinity of the anode which is of the same order and sign as the potential of the anode, and as a result, destructive electronic bombardment of the unshielded parts of the tube is prevented.
  • said means comprising a metallic shield connected electrically to the anode and extending from the anode end of the tube and terminating between the head of the anode and the cathode, the cathode end of .the envelope being unshielded.
  • a thermionic rectifier tube for use in a housing of the compact type containing oil in which the tube is immersed which comprises an envelope, an anode and an electron-emitting cathode within the envelope, the anode acquiring a high negative potential with respect to objects in its vicinity during operation of the devicev and constituting. a source of destructive field currents,
  • said means comprising a metallic shield conforming to the shape of the envelope and spaced substantially uniformly therefrom, the shield being connected electrically to the anode and extending from the anode end of the tube to terminate betweenthe head of the anode and the cathode, the cathode end of the envelope being unshielded.

Landscapes

  • X-Ray Techniques (AREA)

Description

Oct. 4, 1938. R. R. MACHLETT 2,132,175
X-RAY APPARATUS I Filed Sept. 8, 1937 5 M ATTORNEY;
5 cause Patented Oct. 4, 1938 UNITED STATES PATENT OFFlCE X-RAY APPARATUS Raymond B. Machlett,
- to Machlett Laborato Riverside, Conn, assignmries Incorporated, Springdale, Conn., a corporation of Connecticut Application September 2 Claims.
5 spect to objects in its vicinity. More particularly, the invention is concerned with devices of the kind referred to having novel features of construction which increase the life of the devices and improve their operation. The principles of 0 the invention may be embodied in thermionic discharge devices of various kinds and for various purposes, but, since the invention may be utilized to special advantage in high vacuum hot cathode rectifier tubes, a tube of that type containing the new features will be described in detail for purposes of explanation. It is to be understood, however, and will be readily apparent that'the utility of the invention is not limited to devices of that particular kind.
A high vacuum hot cathode rectifier tube depends'for its operation on the well known rectifying action of an electron-emitting filament opposing a cold plate in a vacuum tube. Such a valve tube is always operated below the saturation value and it is so constructed that the amount of current required to pass through it in the performance of its function flows through with a negligible voltage drop when the cathode is negative. On the succeeding half wave, during which 3 the plate or anode is negative, no current flows and when the tube is blocking, that is, when the anode is negative, the potential of the anode with respect to the cathode, the tube walls, and other surrounding objects may become very high. Be-
of that, specialprecautions are taken in designing avalve tube to avoid the occurrence of cold emission or field currents which might cause electronic bombardment of unshielded portions of the tube and eventually cause a breakdown.
With a well designed tube installed in equipment as heretofore built, the expedients employed for preventing the undesirable effects above referred to, have ordinarily been adequate, even 45 when high negative potentials of the order of two hundred PKV or more are applied to the anode. More recently, however, there has been an increased tendency to build such equipment in a more compact form and this is particularly 5 true of the extremely high voltage equipment employed for deep therapy. In the most modern form, such equipment capable of producing voltages of 400,000 volts or more is entirely oil-immersed so that it will occupy a minimum of 55 space and at the same time be shockproof. In
vice, acquires a high negative potential with re- 8, 1937, Serial No. 162,840
such equipment, the various parts are in much closer proximity to each other than was previously the case, and, in addition, they are suris, oil instead of air.
Although apparently subjected to the same current and voltage conditions under which they operated satisfactorily in old style equipment, it
rounded by a different dielectric medium, that has recently been found that valve tubes as heretofore constructed will, under the new conditions, become gassy and inoperative after a short period of use. This degeneration of the tube I have found to be caused by field currents within the tube which bring about bombardment of some of its unshielded parts and thus cause a liberation of undesirable gas. Apparently, the electric fields around the tube when installed in the new'equipment are much stronger than those occurring in equipment of the older style and the expedients previously used to avoid. the undesirable effects referred to are now insufficient for the purpose.
The present invention is, accordingly, directed to the provision of a valve tube which will operate satisfactorily for long periods of time when installed in modern generating apparatus of the compact type and immersed in oil. The new tube includes the usual envelope, filament, and anode, and, in addition, it is provided with an external metallic shield which is connected to the anode of the tube and encloses the anode neck, the
shield preferably terminating some distance be- I yond the anode head in the direction of the cathode end of the tube.
Since the shield is directly connected to the anode, its potential is the same as that of the anode and when the latter attains a high negative potential in operation, a similar field is produced around the outside of the tube. With the development of the external field, undesirable bombardment of the glass walls and other delicate parts of the tube is avoided and rapid'degeneration of the tube is prevented.
For a better understanding of the invention reference may be made to the accompanying drawing, in which Figure 1 is a longitudinal sectional view of a valve tube constructed in accordance with the principles of the invention, and
Figure 2 is a diagram illustrating the use of the new tube in high voltage generating equipment.
Referring to the drawing, the tube illustrated includes an envelope I0 having an enlarged central portion H and the usual necks l2 and I3 extending therefrom. The end portion of the tube is brought back into the neck l2 in the usual way to provide a support for the filament l3, which is mounted within a shield l4 and is connected to lead-in wires l5 sealed through the envelope wall. ode 16, which is in conventional form and is mounted on a reentrant end portion I! of the envelope extending into the neck I3. The anode has a stem [8 which is sealed through the envelope wall and at its outer end, the stem is provided with a terminal IS. The tube is also provided with the usual end caps 20 and other features of standard construction.
Mounted on the anode stem in electrical connection with the terminal 19 is a metallic shield 2|, this shield enclosing and being spaced from the neck l3 of the envelope and a portion of the central enlargement H. The shield is made of any desired metal and the rim at its open end is preferably rolled upon itself, as indicated at 2P The shield preferably extends somewhat beyond the face of the anode in the direction of the cathode, as illustrated.
A typical example of an X-ray apparatus in which the new'valve tube is employed is illustrated in Figure 2. This apparatus is for the production of 400,000 volt X-rays and all parts thereof are completely oil-immersed, the grounded metal container or housing which encloses the apparatus and the oil in which it is immersed being omitted from the drawing. The entire apparatus occupies a small space and its various component parts are in close proximity to one another and to the walls of the container.
The apparatus illustrated employs the socalled Villard or voltage doubling circuit, each half of which builds up a potential of 200,000 volts from ground, positive on one side and negative on the other. The apparatus includes a pair of transformers, of whichthe secondaries 22, 23 only are shown, and one end of each secondary is connected through a condenser 24, 25, to ground at'26, 21. Connected to ground and to the other terminal of each secondary is a valve tube 28,, 28 of the new construction, the tubes being connected in reverse arrangement, as illustrated. From the points of junction 30, 3! of the transformer secondaries and, the tubes are conductors 32, 33 leading, respectively, to the anode 34 and cathode 35 of an X-ray tube 36. The cathode filament of the X-ray tube is heated by current supplied by the'secondary 37 of a transformer, andthe cathode filaments of the valve tubes 28, 29 are heated, by current supplied by the secondaries 38, 39, respectively, of the transformers.
With the circuit described, the connections are such that current at a voltage of 400,000 volts Opposing the filament is the anflows through the X-ray tube on successive half waves, part of the voltage being supplied by the output of the transformer secondaries 22, 23, and the remainder by the condensers 24, 25.
When the apparatus of the type illustrated was operated with ordinary valve tubes in the modern compact equipment with the various parts of the apparatus oil-immersed, it was found that the valve tubes degenerated rapidly as a result, apparently, of heavy electronic bombardment of the unshielded parts of the tubes. Valve tubes of the new construction were then installed in the equipment and their operation proved entirely satisfactory. The reason for this is that the shield on each tube maintains an external field in the vicinity of the anode which is of the same order and sign as the potential of the anode, and as a result, destructive electronic bombardment of the unshielded parts of the tube is prevented.
What I claim is:
l. A thermionic rectifier tube I for use in a housing of the 'compact type containing oil in which the tube is immersed, which comprises an envelope, an anode and an electron-emitting cathode within the envelope, the anode acquiring a high negative potential with respect to objects in. its vicinity during operation of the device and constituting a source of destructive field currents, and means enclosing the anode end only of the envelope and maintaining in the vicinity of the anode an electric field of the same order and sign as the potential of the anode, said means comprisinga metallic shield connected electrically to the anode and extending from the anode end of the tube and terminating between the head of the anode and the cathode, the cathode end of .the envelope being unshielded.
2. A thermionic rectifier tube for use in a housing of the compact type containing oil in which the tube is immersed, which comprises an envelope, an anode and an electron-emitting cathode within the envelope, the anode acquiring a high negative potential with respect to objects in its vicinity during operation of the devicev and constituting. a source of destructive field currents,
and means enclosing the anode end only of the envelope and maintaining in the vicinity of the anode an electric. field of the same order and sign as. the potential of the anode, said means comprising a metallic shield conforming to the shape of the envelope and spaced substantially uniformly therefrom, the shield being connected electrically to the anode and extending from the anode end of the tube to terminate betweenthe head of the anode and the cathode, the cathode end of the envelope being unshielded.
' RAYMOND R. MACHLE'I'I.
US162840A 1937-09-08 1937-09-08 X-ray apparatus Expired - Lifetime US2132175A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US162840A US2132175A (en) 1937-09-08 1937-09-08 X-ray apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US162840A US2132175A (en) 1937-09-08 1937-09-08 X-ray apparatus

Publications (1)

Publication Number Publication Date
US2132175A true US2132175A (en) 1938-10-04

Family

ID=22587341

Family Applications (1)

Application Number Title Priority Date Filing Date
US162840A Expired - Lifetime US2132175A (en) 1937-09-08 1937-09-08 X-ray apparatus

Country Status (1)

Country Link
US (1) US2132175A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2692298A (en) * 1952-04-29 1954-10-19 Westinghouse Electric Corp Tubulation and lead-in construction
US2730628A (en) * 1950-07-22 1956-01-10 Gen Radiological Ltd Operation of x-ray tubes
US2820169A (en) * 1955-03-14 1958-01-14 Rca Corp Combination beam plate and outer shield
US2822497A (en) * 1955-10-04 1958-02-04 Albert D Larue Bushing for magnetron
US2840750A (en) * 1953-08-24 1958-06-24 Westinghouse Electric Corp High frequency corona shield
US2932758A (en) * 1957-03-04 1960-04-12 Rca Corp Electron beam tube
US2994847A (en) * 1954-06-01 1961-08-01 Centre Nat Rech Scient Film resistors and methods of manufacture
US3789256A (en) * 1972-05-03 1974-01-29 Westinghouse Electric Corp Shielded spark gap device

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2730628A (en) * 1950-07-22 1956-01-10 Gen Radiological Ltd Operation of x-ray tubes
US2692298A (en) * 1952-04-29 1954-10-19 Westinghouse Electric Corp Tubulation and lead-in construction
US2840750A (en) * 1953-08-24 1958-06-24 Westinghouse Electric Corp High frequency corona shield
US2994847A (en) * 1954-06-01 1961-08-01 Centre Nat Rech Scient Film resistors and methods of manufacture
US2820169A (en) * 1955-03-14 1958-01-14 Rca Corp Combination beam plate and outer shield
US2822497A (en) * 1955-10-04 1958-02-04 Albert D Larue Bushing for magnetron
US2932758A (en) * 1957-03-04 1960-04-12 Rca Corp Electron beam tube
US3789256A (en) * 1972-05-03 1974-01-29 Westinghouse Electric Corp Shielded spark gap device

Similar Documents

Publication Publication Date Title
US1946288A (en) Electron discharge device
US2291948A (en) High voltage X-ray tube shield
US2132175A (en) X-ray apparatus
US2692350A (en) Discharge lamp and electrode
US1877932A (en) Electric lamp
US2106847A (en) Electric discharge apparatus
USRE18798E (en) Discharge tube
US2096817A (en) High frequency oscillator
US1874753A (en) Controlled arc discharge apparatus
US2034572A (en) Electric lamp and method of producing light
US2228276A (en) Electrical gaseous discharge device
US2225645A (en) Discharge tube
US1880092A (en) Electron discharge device
US2481365A (en) Gaseous discharge device
US2121591A (en) Grid glow tube with zero temperature effect
US2201819A (en) Electronic device
US1815762A (en) Electric discharge device
US2124682A (en) Electrical gaseous discharge device
US2248425A (en) Rectifier tube
US1945639A (en) Discharge tube
US1871537A (en) Electron discharge device
US2541335A (en) Glow discharge device
US2212849A (en) High voltage gaseous rectifier
US1705377A (en) Thermionic device
US2845559A (en) Structure for high voltage tube