US2107353A - Lead-in for electron discharge devices - Google Patents
Lead-in for electron discharge devices Download PDFInfo
- Publication number
- US2107353A US2107353A US2060A US206035A US2107353A US 2107353 A US2107353 A US 2107353A US 2060 A US2060 A US 2060A US 206035 A US206035 A US 206035A US 2107353 A US2107353 A US 2107353A
- Authority
- US
- United States
- Prior art keywords
- lead
- envelope
- electron discharge
- discharge devices
- metal
- 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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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J5/00—Details relating to vessels or to leading-in conductors common to two or more basic types of discharge tubes or lamps
- H01J5/32—Seals for leading-in conductors
- H01J5/40—End-disc seals, e.g. flat header
- H01J5/42—End-disc seals, e.g. flat header using intermediate part
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J2893/00—Discharge tubes and lamps
- H01J2893/0033—Vacuum connection techniques applicable to discharge tubes and lamps
- H01J2893/0034—Lamp bases
Definitions
- My invention relates to electron discharge devices, more particularly to improvements in leadins and the seals for said lead-ins in electron discharge tubes having metal envelopes.
- Electron discharge devices having a metallic envelope for example, rectifiers, switch tubes, and the like, are known in the prior art in which the sealed evacuated metallic envelope is apertured at one or more places, the electrode leads l being brought into the envelope and to the electrodes thru these apertures.
- the electrodes are sealed into the envelope by the aid of insulation, such as glass, which both insulates the lead-ins and hermetically seals them intothe envelope.
- the lead-ins are insulated from and sealed into the metal envelope by the aid of porcelain packing.
- the problem of scaling in the lead-in is not quite so important inasmuch as the envelope is constantly connected with vacuum pumps, which insure and maintain the requisite vacuum automatically.
- the present invention relates to electron discharge devices of the first kind, that is, electron discharge devices which are not constantly connected with the vacuum pump, but which are exhausted, sealed and then disconnected from the pump after exhaust.
- An object of my invention is to provide an improved form of lead-in for electron discharge tubes having metal envelopes in which the leadin seal is relieved of the mechanical and thermal stresses to which the lead-in may be subjected.
- the electrodes are supported from the container or vessel by means of lead-ins which are mechanically secured to but insulated from the envelope, the individual seals being relieved of strains, both mechanical and thermal.
- the insulation materials for supporting the lead-ins in the envelope may be such as to insure adequate insulation and at the same time possess requisite 5 mechanical and thermal properties, and these materials can be selected without considering their ability to provide a vacuum tight seal.
- the sealing of the lead-ins into the envelope is effected by other insulating material particularly suitable for this purpose at a place which is less 5 subject to thermal and mechanical stresses than the supporting point for the lead-in.
- the electron discharge so device has a metal envelope I which is fitted with a metallic cup-shaped cover 2 sealed to the envelope and having an aperture surrounded by an annular collar like extension which is on the exterior of the envelope and which in this case iis formed by the walls of the cup-shaped cover.
- he lead 3 extends thru the aperture in the cover and is provided with screw-threads on which are screwed two nuts 4 and 5 adapted to hold together the parts 6 and l of an insulating bushing such as an electrical porcelain which has lips engaging opposite sides of the envelope and provides a strong mechanical support for the leadin 3 in the cover 2.
- the vacuum tight seal is pro vided by filling the cover 2 with a lute or cement 35 7, such as glass, enamel, sealing wax, pitch or the like, as Well-known in the art.
- the metallic envelope I has a closed end 8 provided with an aperture in which is fitted 40 the rod-like lead-in 9.
- Welded to and projecting outwardly from the end 8 of the envelope to 45 form a collar like extension is a. metal tube or annular collar M which surrounds the lead-in l? on the exterior of the envelope.
- the rod 9 has at its upper end a screw-thread portion l5 upon which is threaded a metal cap I6. This metal cap it is screwed on to such a position that a circular slit is formed between the edges of the cap I6 and of the collar 14. This slit is closed vacuum tight by being filled with insulation material I],
- the metal envelope 1 is provided with a closed end 8' having an aperture in which is fitted the rodlike lead-in 9 which supports two nuts 18 and 59 designed to unite the bushing consisting of the parts 2!! and 2
- the end 8' supports a metal collar 22 which is welded to the envelope and surrounds the lead-in on the exterior of the envelope.
- a porcelain cylinder 23 is fitted into the collar and is copper coated on its surface at opposite ends as shown at 23.
- Mounted over this porcelain cylinder 23 is a metal cap 24 screwed to lead-in 5 in such a way that part of the copper-coated porcelain cylinder remains visible.
- the p011- celain cylinder has an uncoated annular portion 25.
- the cap 24 as well as the collar 22 are soldered at their edges to the copper coated portions of the porcelain cylinder, as shown at 26 and 2'].
- the invention is useful both for high vacuum electron discharge devices as well as for gasand vapor-filled electron discharge devices.
- An electron discharge device having a metal envelope provided with an aperture, an insulating bushing in said aperture having lips engaging opposite sides of the envelope, a rigid lead-in extending thru said envelope and supported by said bushing on said envelope, means for securing said bushing and said lead-in to said envelope for providing a mechanical support for said lead-in, said envelope having a collar-like extension surrounding said lead-in on the exterior of the envelope, a cap on the outer end of said lead-in and an insulating cylinder surrounding said lead-in and having a metal coating on its opposite ends and filling the space between said lead-in and said collar-like extension, said cap and said collar-like extension being soldered to the metal coating on said insulating cylinder to form a vacuum tight seal for said lead-in.
- An electron discharge device having a metal envelope provided with an aperture, an insulating bushing in said aperture, a rigid lead-in extending through and into said envelope and thru and supported by said bushing, means on opposite sides of said bushing for securing said bushing and said lead-in to said envelope within said aperture, a metallic collar-like member welded to said envelope and surrounding the lead-in on the exterior of said envelope, a cap on the outer end of said lead-in, a cylinder of insulating material surrounding said lead-in and provided with a metal coating at its opposite ends, said cap and said collar being soldered to the metal coating on said cylinder of insulating material to provide a vacuum tight seal for said lead-in.
Description
Feb. 8, 1938. H. VATTER LEAD-IN FOR ELECTRON DISCHARGE DEVICES Filed Jan. 16, 1935 INVENTOR. H ANS VATTER ATTORNEY.
Patented Feb. 8, 1938 UNITED STATES PATENT OFFICE LEAD-IN FOR ELECTRON DISCHARGE DEVICES poration of Germany Application January 16, 1935, Serial No. 2,060 In Germany January 25, 1934 2 Claims.
My invention relates to electron discharge devices, more particularly to improvements in leadins and the seals for said lead-ins in electron discharge tubes having metal envelopes.
Electron discharge devices having a metallic envelope, for example, rectifiers, switch tubes, and the like, are known in the prior art in which the sealed evacuated metallic envelope is apertured at one or more places, the electrode leads l being brought into the envelope and to the electrodes thru these apertures. The electrodes are sealed into the envelope by the aid of insulation, such as glass, which both insulates the lead-ins and hermetically seals them intothe envelope.
However, one disadvantage of such constructions is that the insulation is called upon to serve at the same time for insulation and also afford mechanical support for the lead-in. In view of the marked mechanical and thermal stresses to s which the lead-ins and particularly the seals are subjected, leaks and thus impairment of the vacuum are hard to avoid.
In some conventional electron discharge devices having a metal envelope, and handling high loads, the lead-ins are insulated from and sealed into the metal envelope by the aid of porcelain packing. In these discharge devices however, the problem of scaling in the lead-in is not quite so important inasmuch as the envelope is constantly connected with vacuum pumps, which insure and maintain the requisite vacuum automatically.
The present invention relates to electron discharge devices of the first kind, that is, electron discharge devices which are not constantly connected with the vacuum pump, but which are exhausted, sealed and then disconnected from the pump after exhaust.
An object of my invention is to provide an improved form of lead-in for electron discharge tubes having metal envelopes in which the leadin seal is relieved of the mechanical and thermal stresses to which the lead-in may be subjected.
According to my invention, the electrodes are supported from the container or vessel by means of lead-ins which are mechanically secured to but insulated from the envelope, the individual seals being relieved of strains, both mechanical and thermal.
Some advantages of the construction made according to my invention are that the insulation materials for supporting the lead-ins in the envelope may be such as to insure adequate insulation and at the same time possess requisite 5 mechanical and thermal properties, and these materials can be selected without considering their ability to provide a vacuum tight seal. The sealing of the lead-ins into the envelope is effected by other insulating material particularly suitable for this purpose at a place which is less 5 subject to thermal and mechanical stresses than the supporting point for the lead-in.
The novel features which I believe to be characteristic of my invention are set forth with par ticularity the appended claims, but the inven= l0 tion itself will best be understood by reference to the following description taken in connection with the accompanying drawing in which Figure l is a vertical section of a portion of an electron discharge device having a metal envelope and 15 provided with a lead-in seal and support made in accordance with my invention, and Figures 2 and 3 are vertical sections of modifications of the invention shown in Figure 1.
Referring to Figure l, the electron discharge so device has a metal envelope I which is fitted with a metallic cup-shaped cover 2 sealed to the envelope and having an aperture surrounded by an annular collar like extension which is on the exterior of the envelope and which in this case iis formed by the walls of the cup-shaped cover.
he lead 3 extends thru the aperture in the cover and is provided with screw-threads on which are screwed two nuts 4 and 5 adapted to hold together the parts 6 and l of an insulating bushing such as an electrical porcelain which has lips engaging opposite sides of the envelope and provides a strong mechanical support for the leadin 3 in the cover 2. The vacuum tight seal is pro vided by filling the cover 2 with a lute or cement 35 7, such as glass, enamel, sealing wax, pitch or the like, as Well-known in the art.
In the embodiment of my invention shown in Figure 2 the metallic envelope I has a closed end 8 provided with an aperture in which is fitted 40 the rod-like lead-in 9. Two nuts Ill and l l on opposite sides of an insulation bushing consisting of the two parts l2 and I3, secure the leadin 9 firmly to the end 8. Welded to and projecting outwardly from the end 8 of the envelope to 45 form a collar like extension is a. metal tube or annular collar M which surrounds the lead-in l? on the exterior of the envelope. The rod 9 has at its upper end a screw-thread portion l5 upon which is threaded a metal cap I6. This metal cap it is screwed on to such a position that a circular slit is formed between the edges of the cap I6 and of the collar 14. This slit is closed vacuum tight by being filled with insulation material I],
such as a glass tube or the like with its edges fused to the edges of the cap and the collar.
In the modification shown in Figure 3, the metal envelope 1 is provided with a closed end 8' having an aperture in which is fitted the rodlike lead-in 9 which supports two nuts 18 and 59 designed to unite the bushing consisting of the parts 2!! and 2| and to secure the lead-in to the envelope. The end 8' supports a metal collar 22 which is welded to the envelope and surrounds the lead-in on the exterior of the envelope. A porcelain cylinder 23 is fitted into the collar and is copper coated on its surface at opposite ends as shown at 23. Mounted over this porcelain cylinder 23 is a metal cap 24 screwed to lead-in 5 in such a way that part of the copper-coated porcelain cylinder remains visible. The p011- celain cylinder has an uncoated annular portion 25. The cap 24 as well as the collar 22 are soldered at their edges to the copper coated portions of the porcelain cylinder, as shown at 26 and 2'].
The invention is useful both for high vacuum electron discharge devices as well as for gasand vapor-filled electron discharge devices.
While I have indicated the preferred embodiments of my invention of which I am now aware and have also indicated only one specific application for which my invention may be employed, it will be apparent that my invention is by no means limited to the exact forms illustrated or the use indicated, but that many variations may be made in the particular structure used and the purpose for which it is employed without departing from the scope of my invention as set forth in the appended claims.
What I claim as new is- 1. An electron discharge device having a metal envelope provided with an aperture, an insulating bushing in said aperture having lips engaging opposite sides of the envelope, a rigid lead-in extending thru said envelope and supported by said bushing on said envelope, means for securing said bushing and said lead-in to said envelope for providing a mechanical support for said lead-in, said envelope having a collar-like extension surrounding said lead-in on the exterior of the envelope, a cap on the outer end of said lead-in and an insulating cylinder surrounding said lead-in and having a metal coating on its opposite ends and filling the space between said lead-in and said collar-like extension, said cap and said collar-like extension being soldered to the metal coating on said insulating cylinder to form a vacuum tight seal for said lead-in.
2. An electron discharge device having a metal envelope provided with an aperture, an insulating bushing in said aperture, a rigid lead-in extending through and into said envelope and thru and supported by said bushing, means on opposite sides of said bushing for securing said bushing and said lead-in to said envelope within said aperture, a metallic collar-like member welded to said envelope and surrounding the lead-in on the exterior of said envelope, a cap on the outer end of said lead-in, a cylinder of insulating material surrounding said lead-in and provided with a metal coating at its opposite ends, said cap and said collar being soldered to the metal coating on said cylinder of insulating material to provide a vacuum tight seal for said lead-in.
HANS VAT'I'EE.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE2107353X | 1934-01-25 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2107353A true US2107353A (en) | 1938-02-08 |
Family
ID=7985262
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US2060A Expired - Lifetime US2107353A (en) | 1934-01-25 | 1935-01-16 | Lead-in for electron discharge devices |
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US (1) | US2107353A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2458748A (en) * | 1945-05-01 | 1949-01-11 | Stupakoff Ceramic & Mfg Compan | Hermetic seal for electric terminals and the like |
US2668946A (en) * | 1951-01-30 | 1954-02-09 | Cornell Dubilier Electric | Electrical condenser |
US20040173370A1 (en) * | 2002-05-16 | 2004-09-09 | Zhijian Deng | Hermetically sealed current conducting terminal assembly |
-
1935
- 1935-01-16 US US2060A patent/US2107353A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2458748A (en) * | 1945-05-01 | 1949-01-11 | Stupakoff Ceramic & Mfg Compan | Hermetic seal for electric terminals and the like |
US2668946A (en) * | 1951-01-30 | 1954-02-09 | Cornell Dubilier Electric | Electrical condenser |
US20040173370A1 (en) * | 2002-05-16 | 2004-09-09 | Zhijian Deng | Hermetically sealed current conducting terminal assembly |
US6844502B2 (en) | 2002-05-16 | 2005-01-18 | Emerson Electric Co. | Hermetically sealed current conducting terminal assembly |
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