US3280452A

US3280452A - Method of manufacturing heaters for electron discharge devices

Info

Publication number: US3280452A
Application number: US326161A
Authority: US
Inventors: George I Merritt
Original assignee: RCA Corp
Current assignee: RCA Corp
Priority date: 1963-11-26
Filing date: 1963-11-26
Publication date: 1966-10-25
Anticipated expiration: 1983-10-25

Description

G. MERRITT 3,280,452 METHOD OF' MANUFACTURING HEATERS FOR ELECTRON DISCHARGE DEVICES Oct. 25, 1966 2 Sheets-Sheet 2 Filed Nov. 26, 1963 ///LL////////\\T| INVENTOR. Gfocf/ Maw/rr WMM United States Patent C M 3,289,452 TETHGB F MANUFASTURING HEATERS FR ELECTRON DISCHARGE DE/ECES George I. Merritt, Clifton, NJ., assigner' to Radio Corporation of America, a corporation of Delaware Filed Nov. 26, 1963, Ser. No. 326,161 6 Claims. (Ci. 2-155162) This invention relates to Ia method of manufacturing heaters for electron discharge devices, and particularly to a method of manufacturing coiled or helical heaters having accurately positioned leg portions.

In certain types .of electron tubes, indirectly heated cathodes are used which are heated by an insulated type of heater known as a double-helical heater. Such heaters comprise -a suitable heater wire, such as tungsten, which is wound into Ia helix of relatively line p-itch, the tine pitch helix, in turn, being formed `into Va pair of interwoven helices of relatively coarse pitch. For making electrical and mechanical connections with the heater, each of the pfair of interwoven helices terminates in an extending leg portion which may be secured to -a suitable support.

For the purpose of facilitating automatic assembly of such heaters into electron tubes, it is desirable that the extending leg portions of the heaters be accurately disposed with respect to the interwoven helical portions of t-he he-ater. Also, for reasons to be described hereinafter, it is perferable that the leg portions comprise relatively straight and non-coiled lengths of wire. In the past, it has been found diflicult to fabricate double helical heaters having accurately disposed non-coiled leg portions.

Double-helical heaters are conventionally made by first winding a continuous heater wire onto an elongated mandrel to form a series of connected heater workpieces. Each workpiece iis wound with three successive sections of wire including a coarse pitch section from which one leg portion of the heater is formed, a tine pitch section from which the interwoven helices of the heater are formed, and a further coarse pitch section from which the other leg portion of the heater is formed. Thereafter, the mandrel is cut into individual workpieces, each workpiece comprising a length of mandrel having a central portion wound with wire at a tine pitch and end portions wound with wire at a coarse pitch. Each workpiece is then bent into U-sha-pe, and both sides of the U are simultaneously twisted yaround the longitudinal axis of the U to form the interwoven helices. The end portions are not twisted, and because of the coarse pitch with which they are wound, provide leg portions which are substantially uncoiled. The formed heater workpiece is then coated with a suitable insulating material, :and the mandrel then etched from within the coated wire to provide the completed heater.

A problem with the method described is that upon the cutting of the mandrel Iinto individu-al work-ipeces, the leg portions of the heater wound at a coarse pitch often unravel lfrom the mandrel |and emend -away from the mandrel in random directions. This random disposition of the leg portions of the heater resulting from the unraveling of the heater legs is undesirable since it creates problems wit-h respect to automatic locating and positioning `of t-he heaters during automatic assembly of the heaters into electron tubes.

An object of this invention is to provide a new and improved method lof fabricating heaters of the type described wherein the disposition of the leg portions of the heater is accurately controlled.

For achieving these objects in accordance with this invention, the above-described method of manufacturing heaters is modified in that each workpiece may be wound with live successive sections including an end portion wound with a relatively tine pitch, a leg portion wound insana Patented Oct.v 25, 1h66 ICC with -a relatively coarse pitch, -a central portion wound with a relatively tine pitch, a second leg portion wo-und with Ia relatively coarse pitch, and a second end portion wound with a relatively line pitch. After winding, the mandrel is cut to provide individual workpieces. The resulting workpieces each compri-se a mandrel having a winding there-on including a centr-al porti-on wound with `a tine pitch, leg portions connected to each end of the central portion and wound with a coarse pitch, and end portions wound with a fine pitch connected to the ends of the leg portions. The end portions each preferably -include several Iturns of wire wound tightly -around the mandrel. There is no unraveling lof the coarse wound leg portions from the mandrel because the leg portions are held on by the tightly wound end portions. Thereafter, t-he workpieces are formed into double helical shape. Then they may be coated with insulating material, the mandrels may be etched from within the heaters, and the end portions may be cut from the heaters.

A more detailed description .of the invention follows in connection with a description of the drawings wherein:

FIG. 1 shows a double helical heater which may be made according to the method Iof this invention, portions of the Iinsulation being broken away for lgreater clarity;

FIG. 2 shows a wire wound mandrel wound according to the prior art method of abricfating heaters;

FIG. 3 shows a heater workpiece made according to the prior art method;

FIG. 4 shows a wire wound mandrel wound according to the method of this invention;

FIG. 5 shows a heater workpiece after the cutting ofthe wound mandrel shown in FIG. 4;

FIG. 6 shows the heater workpiece of FIG. 5 ormed into double helical shape;

FIG. 7 shows the formed heater of FIG. 6 coated with lan insulating material; and

FIG. 8 shows a completed vheater mounted on a p-air of support leads.

With reference to FIG. I1, a double helical heater 1li comprises a pair of interwoven helices 12 `and 14, each helix lterminating in .a leg portion 16. -Each helix and the leg portions are coated with an insulating material. As shown in FIG. 8, each leg portion 16 may be stripped of its insulation, bent at a right angle, and secured, as by notching and peening, to support wires 18. The support wires 18 may extend through a header member (not shown) -of an electron tube envelope closure stem. The turns of each

helix

12, 14 are formed from a further helix 2t) (FIG. l) of Ia suitable heater wire, such as tungsten. Double helical heaters of the type shown in FIGS. l and 8 are used because the arrangement of the various helices of wire causes a c-ancellation of Ithe electrostatic fields pro` duced by the passage of current through the heater wire. Such iields, if not cancelled, cause noise in the output of the electron tubes using the heaters, as known.

The leg portions 16 of the heater are comparatively straight and uncoiled to facilitate automatic handling and accurate bending of the leg portions at right angles. A method and apparatus for stripping the insulation off the leg portions 16, bending the leg poitions 16, and automatically securing the leg portions to a pair of support wires 18 is described in U.S. Patent 3,013,738, .to John Chase for Method of Assembling a Heater Mount.

With reference to FIG. 2, the prior art method of fabricating double helical heaters comprises winding a tungsten heater wire 24 onto a molybdenum mandrel 26. Each heater workpiece 28 includes a central portion 30 wound with a tine pitch, and leg portions 32 wound with a coarse pitch. The Wound mandrel is then cut into individual workpieces by cutting the mandrel through the leg portions 32 at the positions indicated by 3 the letter C in FIG. 2. A resulting workpiece 28 is shown in FIG. 3.

As mentioned, a problem associated with the heaters woun'd according to the prior art method, is that after cutting of the mandrel, the coarse wound leg portions 32 often unravel from the mandrel 26 and extend from the mandrel in random directions, as shown in FIG. 3. This is undesirable because it interferes with the automatic bending of the leg portions and the assembly of the heater into a heater assembly.

In accordance with an embodiment of this invention, (see FIG. 4), a heater wire 4i?, such as tungsten, is wound onto a mandrel 42, such as molybdenum, so that each heater workpiece 44 includes a central section 46 wound with a fine pitch, leg portion sections 48 wound with a coarse pitch, and end sections 5G wound with a ne pitch.

VSince apparatus suitable for windin-g wire onto successive sections of a mandrel at a plurality of pitches is known, such apparatus is not shown.

' The wound mandrel 42 is then cut into individual workpieces V44 (FIG. 5). The mandrel is cut at the positions marked C in FIG. 4, these positions being between the end portions 50 of adjacent workpieces 44. For convenience of winding, the end sections 50 of each heater workpiece 44 merge with one another, and the mandrel is cut, as shown, between the end turns of the

end sections

50, 50. Alternately, a skip portion, that is, a section of mandrel wound with a coarse winding, may be provided between the end sections 50 of adjacent heater workpieces.

Each cut workpiece 44 (FIG. 5) comprises a length of mandrel 42 having a central portion 46 wound with a ne pitch, leg portions 48 wound with a coarse pitch, and end portions 50 wound with a line pitch. The end portions 50 preferably include live or more turns.

Upon cutting the wound mandrel 42, the closely wound turns of wire in the end portions 5t) do not unravel, hence, prevent unraveling of the coarsely wound leg portions 48. Prior to cutting of the Wire wound mandrel 42, the mandrel and wire thereon may be annealed for tempering and setting the wire 40 and further removing the tendency of the wire to unravel.

The workpiece 44 is then formed into the double helical shape as shown in FIG. 6, the leg portions 48 and end portions 50 not being formed into helices. Apparatus for forming the heaters is not shown since such apparatus is known.

Thereafter, the formed heater is coated with a suitable insulating material, such as aluminum oxide. The coat-ing operation may be perfor-med by conventional spraying, cataphoretic or dipping operations. FIG. 7 shows a formed heater workpiece which is insulated by means of a dipping operation. The end portions 50 are not covered with insulation since these portions are held within a clip Vfrom which the heater is suspended while being lowered into the insulating material bath.

After the formed heater workpiece is coated with insulating material, it is fired in a hydrogen atmosphere to sinter the coating material and set the wire turns.

In the next operation, the mandrel 42 is etched from within the wound wire. A suitable etchant is used, such as a solution of sulfuric and nitric acids, which attacks molybdenum but not tungsten or aluminum oxide. After etching and removal of the mandrel from within the wound wire the heater workpiece retains its shape due to the fact that Ithe annealed wire has lost most of its spring and because the covering of aluminum oxide is relatively stii and non-ilexible.

The tightly wound end portions 50 are then cut o, thus completing the heater. The leg portions 48 are accurately disposed with respect to the

helices

12 and 14 of the heater since, as explained, unraveling of the leg portions 48 after cutting is prevented by the use of the end portions 50.

Thereafter, the heater workpiece is operated on by apparatus which breaks the insulation orf the leg portions 48, bends the leg portions at right angles, and secures the leg portions to the support wires i8, as described in the aforementioned U.S. Patent 3,013,738.

In one embodiment of this invention, by way of example, the central portions 46 (FIG. 4) are wound with a pitch of 400 turns per inch, for a length of 14 mm., leg portions 48 wound at 16 turns per inch, for a length of 7 mm., and end portions 50 wound at 400 turns per inch for a length of 2.5 mm. The wound mandrel Workpieccs 44 (FIG. 5) are wound into a pair of helices 12, 14 (FIG. 6) each having a pitch of 30 turns per inch.

Although the invention has been described in connection with the manufacture of double helical heaters, it is clear that the invention has a utility with other types of heaters formed from helices of wire. Thus, for ex.,- arnple, hairpin heaters, which comprise a helix of wi-re bent into V-shape and having extending leg portions, can also be made utilizing the method of this invention.

It will be understood that the expressions tine pitch and coarse pitch are terms which relate to the pitch of the various mandrel sections for a given heater. Each heater employs diferent winding pitches dependent upon the size of the heater, the electrical characteristics desired in the heater, and the materials used. Also, although it is preferable to use several turns in end sections Sil, it has been found that a single turn will serve to lock the wire to the mandrel and prevent unraveling of the wire.

What is claimed is:

1. A method of manufacturing a helical heater comprising a helical portion and a leg portion extending from each end of said helical portion, said method including the steps of winding a wire along a mandrel at a first relatively line pitch from which the helical portion of said heater is formed, winding said wire at a relatively coarse pitch on said mandrel to form leg portions adqacent each end of said tine pitch winding, winding said wire at a second relatively ine pitch adjacent an end of each of said leg portions, and cutting the mandrel for providing a heater workpiece comprising a mandrel section having a centrally disposed length of wire wound at said rst ine pitch, leg portions wound with said coarse pitch adjacent each side of said central length, and end portions wound at said second fine pitch adjacent each of said leg portions.

2. A method of manufacturing a helical heater comprisin a helical portion and a leg portion extending from each end of said helical portion, said method including the steps of winding a wire with a re'latvely tine pitch on a mandrel to form the helical portion of said heater, winding said wire with a relative-ly coarse pitch on said maindrel to form the leg portions of said lheater, Winding said wire with a relatively line pit-ch along sections of said mandrel adjacent -an end of eaoh of said leg portions, and cutting said mandrel intermediate t'he end turns of said lastamed wound sections for providing a heater workpiece having accurately disposed leg portions.

3. A method of manufacturing .an insulated helical heater comprising a helical portion :and a leg portion extending from each eind of said helical portion, said method including the steps of winding a wire with a relatively fine pitch on a mandrel to .form the helical portion of said heater, winding said wire on said mandrel with a relatively coarse pitch to form the leg portions of said heater, winding said wire with a relatively ne pitch along sections of said mandrel adjacent an end of each of said ileg portions, cutting said mandrel adjacent said last-named wound sections for providing .a heater workpiece including said last-named winding, forming said workpiece into preselected sli-ape, coating said workpiece with a brittle insulating material, removing said mandrel from within said wound wire, and cutting said last-named winding from said leg portions.

4. A method of manufacturing ya helical heater cornprising a helical portion and a leg portion extending from each end of said helical portiotn, said method including the steps tof winding a wire with a relatively tine pitch on a mandrel to form the helical portion of said heater, Winding said wire on said mandrel with a relative-ly coarse pitch to form the leg portions of said heater, winding said wire with a relatvely -ne pitch along sections of said lInandrel adjacent aln end of each of said leg portions, `annealing said wound wire, cutting said mandrel adjacent said -last-named Wound sections for providing a heater yworkpiece including said last-named Winding, forming said workpiece into preselected shape, coating said workpiece with a brittle insulating material, etching said mandrel from within said Wound Wire, and cutting said last-named winding from said leg portions.

5. A method of producing helical heaters having a central .helical portion and a substantially straight leg portion extending from each end of said helical portion, the steps including Winding Ia heater wire along a mandrel to form a plurality of connected Workpieces and in a sequence including a lirst length of said wire wound with a relatively fine pitch, :a second length of said wire Wound with a relatively coarse pitch, a third length of said wire woud with a relatively fine pitch, a fourth length of said wire wound with a relatively coarse pitch, Iand a iifth length oi said wire Wound with `a relatively tine pitch, and cutting said mandrel between the rst and iifth lengths of adjacent workpieces.

6. A method of producing helical heaters having a central helical portion and ya substantially straight leg portion extending from each end of said helical portion, the steps including winding a heater wire :along a mandrel to form a plurality of connected Workpieces and iin ya sequence including a rst length of said wire wound with a relatively fine pitch, a second ilength of said Wire wound with a relatively coarse pitch, a third length of said wire wound with a relatively fine pitch, a fourth length of said Wire Wound with a relatively coarse pitch, and a fifth length of said wire Woulnd with relatively Itine pitch, cutting said mandrel between the rst :and iifth lengths of adjacent workpieces, forming the cut workpieces into preselected shape, coating said workpieces with a brittle insulating material, etching said mandrel from within said wound wire, and lcutting said first and fifth windings from said w-orkpieces.

References Cited by the Examiner UNITED STATES PATENTS 1,904,487 4/1933 Lyon et al 29-155-62 X 1,972,162 9/1934 Parrott 14C-71.5 X 2,247,869 7/1941 Beers 29-15568 X 2,306,925 12/1942 Aicher 313-344 X 3,196,907 7/196'5 Noiles et al. 140-71.5

JOHN F. CAMPBELL, Primary Examiner.

I, M. ROMANCHK, Assistant Examiner.

Claims

2. A METHOD OF MANUFACTURING A HELICAL HEATER COMPRISING A HELICAL PORTION AND A LEG PORTION EXTENDING FROM EACH END OF SAID HELICAL PORTION, SAID METHOD INCLUDING THE STEPS OF WINDING A WIRE WITH A RELATIVELY FINE PITCH ON A MANDREL TO FORM THE HELICAL PORTION OF SAID HEATER, WINDING SAID WIRE WITH A RELATIVELY COARSE PITCH OF SAID MANDREL TO FORM THE LEG PORTIONS OF SAID HEATER, WINDING SAID WIRE WITH A RELATIVELY FINE PITCH ALONG SECTIONS OF SAID MANDREL ADJACENT AN END OF EACH OF SAID LEG PORTIONS, AND CUTTING SAID MANDREL INTERMEDIATE THE END TURNS OF SAID LAST-NAMED WOUND SECTIONS FOR PROVIDING A HEATER WORKPIECE HAVING ACCURATELY DISPOSED LEG PORTIONS.