Connect public, paid and private patent data with Google Patents Public Datasets

Color coded tube and method

Download PDF

Info

Publication number
US2506866A
US2506866A US75410247A US2506866A US 2506866 A US2506866 A US 2506866A US 75410247 A US75410247 A US 75410247A US 2506866 A US2506866 A US 2506866A
Authority
US
Grant status
Grant
Patent type
Prior art keywords
leads
envelope
header
glass
tube
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
Inventor
Forrest E Gehrke
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.)
Verizon Laboratories Inc
Original Assignee
Verizon 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
Grant date

Links

Images

Classifications

    • HELECTRICITY
    • H01BASIC ELECTRIC 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
    • H01J5/32Seals for leading-in conductors

Description

May 9, 1950 F. E. GEHRKE COLOR CODED TUBE AND METHOD Filed June 12, 1947 INVENTOR. Forrestf. Gehrfie His fitter/16y Patented May 9, 1950 UNITED coLoR cone!) TUBE AND METHOD Forrest E. Gehrke, Flushing, N. Y., assignor to Sylvania Electric Products, Inc., a corporation of Massachusetts Application June 12, 1947, Serial No. 754,102

13 Claims. (Cl. 250-275) The present invention relates to electron discharge devices, and especially to miniature types Where the terminals are so close to each other as to make diflicult the quick identification of each terminal with the connected internal electrode. The invention is directed to miniature devices each having plural identified closely spaced terminals, and to a method of achieving that identification.

In large tubes, receiving as well as transmitting, it has been comparatively simple to identify the various terminals that extend through the envelope to internal electrodes. Where the tube size is great the relative locations of the terminals are readily noted and utilized. One common practice with receiver types is to use a circular array of evenly spaced pins and to omit one pin or to enlarge certain pins so that the tube Will fit into an appropriate socket in only the correct position. Another common practice is to use a circular pin array and a central rod having a, lateral key to insure proper insertion of the tube into the socket. The bayonet form of tube and socket construction has also been extensively used previously, requiring a slight turn of the tube after inserting it into the socket.

In the case of miniature glass-envelope tubes, of the order of of an inch in diameter, the problem of identifying the several terminals by their relative location is a difficult one. Terminals of diversified gauges of wire are undesirable. This problem is more difiicult where many terminals emerge very close to each other from one end or header of a tube as long, flexible leads. The leads are mutually positioned in an arbitrary, often non-geometric array as determined by the construction and arrangement of the electrodes within the tube envelope.

Coatings of various colors have been in use for identification of the several leads, somewhat as in the case of multiple wires in a cable. To permit the tubes to be soldered into their utilization circuits without scraping the leads, volatile coatings have been used, with the result that the color code is often obliterated during circuit assembly. Subsequent tracing of the circuits is greatly complicated, and this factor is a threat to, the commercial acceptance of this type of tube.

The problem of coding the terminals of miniature tubes has vexed the tube industry for several years. According to my invention a permanent coded identification is provided on miniature tubes by fusing colored vitreous frit to the envelope where the leads emerge, a distinctive color for each element. The simplicity and effectiveness of this solution are its principal recommendation. The invention wil1 perhaps be better appreciated with its further features from the following detailed description of a preferred embodiment and from the drawings in which Fig. 1 is the enlarged end view of a novel colorcoded miniature tube; and

Fig. 2 is an enlarged lateral perspective view of a tube during manufacture.

Referring now to Fig. 1 there are shown five leads H), II, I2, 13 and I4 emerging from the bottom or header l5 of a sub-miniature electron discharge device. Header I 5 is of glass and is sealed to the leads. The several elements represented in Fig. 2 by mount l6, but not shown individually, are connected to leads ID to I4. Because of the fact that header I5 is small in diameter, of the order of of an inch in outside diameter, the leads are quite close together. They are normally dificult to identify with their respective internal elements either by tracing them through the transparent glass envelope, or by studying their relative arrangement. In many types of tubes of this small size, the point where each lead emerges from the header is determined by the internal construction of the tube, the shapes and arrangement of the elements that form mount l6. Furthermore the leads are desirably arranged to provide the mount with a wide-based support for resisting vibration and microphonics, and do not ordinarily lie on a straight line.

In order to identify the elements permanently as an aid in circuit-tracing and to insure correct and simple replacement of tubes, especially where leads Ill to M are directly soldered into the utilization circuit, I have been successful in color-coding leads I 0 to M by applying frit of distinctive colors to the header where the various leads emerge, and fusing that frit to form a permanent bond with the header if not also to the leads.

An excellent color-coding material for this purpose is a fine colored glass powder in a glycerine vehicle. The glass used is usually a mixture including'a lower melting-point frit than the header. It is desirable that a different color be used for each lead except where plural leads are connected to a single electrode. The same color is used at the points where the leads I2 and I3 emerge from header l5, these leads being the terminals of a filamentary heater for a cathode. Other colors are used for identifying the other electrodes to which leads H], II and M are connected, and these in the present case are the plate, the control grid, and the cathode. Manifestly it is possible to use a transparent and colorless identification for one of the electrodes and in that event no frit need be applied. Similarly it is common for a single lead to emerge from the envelope at the end opposite the header. Considering such remote location of the lead, no additional identification is required.

In manufacturing miniature electron discharge devices of the type described, the mount assembly comprising mount I6 supported on leads [0. to [4 which are sealed to header I5 is assembled to shell l8 of transparent glass having exhaust tubulation l9. This assembly is rotated opposite a series of preheating burners (not shown) while there is a short space between the-shell and theheader; or, according to another technique, no space at all need be allowed. After this preheating interval, to relieve cracking stresses, an intense heat isapplied to theed'ges of'the-shell and header which are to be sealed together by tangential burners 20. As a further preliminary to this operation 'I-' apply distinctively colored frits to the points where the several leads emerge from header The frit is fused by heat from the sealing flames, itsvehi'cle is vaporized, and it is permanently bonded to the header and the lead, as indicated. No additional heating is required. The resulting color code Ii's brilliant and resistant to abrasion or other obliteration. Because of the excellent insulating characteristic of the fused frit and the restricted area of application it does not impair the required high resistance between the terminals normally afiorded by the header. What I claim is:

l. The method of coding closely spaced wire terminals of an electronedischarge tube compris- 'ing the steps of applying variously colored frit in discrete spots and at the junction of the various leads and the envelope of said tube, and fusing the frit to establish a permanent bond to the envelope.

"2. The method of making an electron discharge device comprising the steps of assembling a shell to a stemha'ving a vitreous header and closely spaced metal terminals sealed therethrough, applying variously colored identifying fusible mat'erials to said header adjacent the respective ter- -='minals, and simultaneously heating said header for sealing it to said shell and fusing said mate rials to form a bond to said header.

3. An electron discharge device having an envelope, plural emerging at closely spaced points from said envelope, and distinctively colored fused'frit bonded to said envelope where the several leads emerge.

I 4. An electron discharge device having a glass envelope and .a number of leads emerging at closely spacedpoints from said envelope, and distinctively colored fused glass bonded to said envelope where each of the several leads emerge.

5. An electron discharge device having a glass envelope and a number of leads emerging at closely spaced points from said envelope, and distinctively colored glass fused to said envelope at, :at least some of, each of the locations where the leads emerge.

G. The method of coding closely spaced wire terminals of an electron discharge tube having an evacuated vitreous envelope comprising the steps of applying variously colored frit in discrete areas adjacent the junction of the various leads and said envelope, and fusing the frit to establish a permanent bond to the envelope.

'7. The method of coding closely spaced wire terminals of an electron discharge tube having an evacuated vitreous envelope having said terminals extendingthrough said envelope and comprising the steps of applying a spot of distinctively colored powdered glass adjacent the junction of each of at least some of said leads and said envelope, and fusing the colored glass to establish a permanent bond to said envelope.

8. The method of making an electron discharge device comprising the steps of assembling a shell to astemhaving a vitreous header and closely spaced metal terminals sealed therethrough, applying small discrete spots of variously colored powdered glass to said header, one adjacent each of said terminals, and heating said header for simultaneously sealing itto said, shell and fusing said powdered glass to form a bond to said header.

9. 'Ihemethodxofmaking anqelectrlondischarge device; comprising thesteps of assembling: a shell to a stem having a vitreous header and metal terminais sealed; therethrough, applying discrete spots of variously colored powdered glass to; said header, one adjacent each of a number of said terminals, and heating; said header for simultaneously sealing it to. said shell and for fusing said powdered glass; to form a bond to said header.

1'0: vAsn electron discharge device; including an envelope having. a, glass portion through which, a number of leads emerge at closely spaced points and a spot of distinctively colored fused glass bonded to said glass portion adjacent each of at least some of the locations where said leads emer ll. An electron discharge. device including an envelope having a glass portionthrough which a number of leads emerge at closely spaced points and: a spot of distinctively colored fused glass bonded to said: glass portion adjacent each of the locations where said leads emerge.

I2; An electron discharge device includin an envelope having a glass portion through which a number of leads emerge at closely spaced points and a spot oi? distinctively colored fused glass bonded to said envelope adjacent each of at least some of the locations where said leads emerge.

13. An electron discharge device including an envelope having a glass portion through which a number of leads emerge at closely spaced points and a spot of distinctively colored fused glass bonded to said envelope adjacent each ofthe locations where said leads emerge.

- FORREST E. GEI-IRKE.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,655,820 Perryman Jan. 10, 1928 2,242,774 Brumley May 1941 2,306,195 Szuba Dec. 22, .1942 2,248,644 Reger et a1 July 8, 1944 2,441,341 Phelps May 18, 1948

US2506866A 1947-06-12 1947-06-12 Color coded tube and method Expired - Lifetime US2506866A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US2506866A US2506866A (en) 1947-06-12 1947-06-12 Color coded tube and method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US2506866A US2506866A (en) 1947-06-12 1947-06-12 Color coded tube and method

Publications (1)

Publication Number Publication Date
US2506866A true US2506866A (en) 1950-05-09

Family

ID=25033501

Family Applications (1)

Application Number Title Priority Date Filing Date
US2506866A Expired - Lifetime US2506866A (en) 1947-06-12 1947-06-12 Color coded tube and method

Country Status (1)

Country Link
US (1) US2506866A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2639554A (en) * 1950-08-18 1953-05-26 Frederick W Zons Method of and apparatus for sealing ampoules
US2892175A (en) * 1954-08-16 1959-06-23 Gen Motors Corp Colored electrical terminals
US2945163A (en) * 1955-01-10 1960-07-12 Globe Union Inc Component mounting for printed circuits
US4374451A (en) * 1979-05-21 1983-02-22 Rca Corporation Method of assembling a CRT using a coded subassembly or part
DE4424596A1 (en) * 1994-07-13 1996-01-18 Nokia Deutschland Gmbh Marker for electron gun system

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1655820A (en) * 1926-05-22 1928-01-10 Perryman Electric Company Inc Vacuum tube
US2242774A (en) * 1938-10-12 1941-05-20 Westinghouse Electric & Mfg Co Seal for discharge lamps
US2248644A (en) * 1937-02-09 1941-07-08 Gen Electric Method of sealing evacuated envelopes
US2306195A (en) * 1940-01-06 1942-12-22 Szuba Harry Electric discharge tube
US2441841A (en) * 1946-12-06 1948-05-18 Rca Corp Exhaust tube assembly

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1655820A (en) * 1926-05-22 1928-01-10 Perryman Electric Company Inc Vacuum tube
US2248644A (en) * 1937-02-09 1941-07-08 Gen Electric Method of sealing evacuated envelopes
US2242774A (en) * 1938-10-12 1941-05-20 Westinghouse Electric & Mfg Co Seal for discharge lamps
US2306195A (en) * 1940-01-06 1942-12-22 Szuba Harry Electric discharge tube
US2441841A (en) * 1946-12-06 1948-05-18 Rca Corp Exhaust tube assembly

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2639554A (en) * 1950-08-18 1953-05-26 Frederick W Zons Method of and apparatus for sealing ampoules
US2892175A (en) * 1954-08-16 1959-06-23 Gen Motors Corp Colored electrical terminals
US2945163A (en) * 1955-01-10 1960-07-12 Globe Union Inc Component mounting for printed circuits
US4374451A (en) * 1979-05-21 1983-02-22 Rca Corporation Method of assembling a CRT using a coded subassembly or part
DE4424596A1 (en) * 1994-07-13 1996-01-18 Nokia Deutschland Gmbh Marker for electron gun system

Similar Documents

Publication Publication Date Title
US3514660A (en) Electric discharge flicker lamp
US3501662A (en) Planar or three-dimensional fluorescent lamp and method of manufacture
US2125316A (en) Method of forming glass to metal seals
US3743879A (en) Cold cathode display panel having a multiplicity of gas cells
US3469140A (en) Single-ended electric incandescent lamp with improved base and terminal structure,and method of assembly
US4752710A (en) Electric lamp with insulating base providing improved wire retention
US4143298A (en) Television cathode ray tube having a voltage divider providing temperature-invariant voltage and associated method
US4728867A (en) Electrodeless low-pressure discharge lamp
US3617797A (en) Pinch-base electric lamp with transversely arranged supply wires
US3207936A (en) Electron beam display device
US3788721A (en) Electrically conductive components
US2089044A (en) Electron discharge tube
US3431540A (en) Lamp base
US4603278A (en) Electric lamp with insulating base
US4139794A (en) Wedge-pin glass halogen lamp with transverse reference feature
US4243907A (en) Lamp having reduced width press-seal
US2454270A (en) Basing electric bulb
US4786842A (en) Resistor assembly
US4326146A (en) Base and terminal-pin assembly for electric lamps and similar devices
US3265923A (en) Baseless double-ended electric incandescent lamp
US2322421A (en) Electric discharge lamp
US4023876A (en) Method of making a fluorescent display device having segmentary anodes
US3764842A (en) Arrangement for the introduction of materials in an electric discharge vessel
US2367595A (en) High temperature lamp
US3774064A (en) Incandescent lamp filament supports