US478219A - Henry p - Google Patents

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US478219A
US478219A US478219DA US478219A US 478219 A US478219 A US 478219A US 478219D A US478219D A US 478219DA US 478219 A US478219 A US 478219A
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die
thread
screw
dies
stretching
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21KMAKING FORGED OR PRESSED METAL PRODUCTS, e.g. HORSE-SHOES, RIVETS, BOLTS OR WHEELS
    • B21K1/00Making machine elements
    • B21K1/56Making machine elements screw-threaded elements

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  • My invention relates to improvements in methods of forging screws; and the object of my-invention is to have the fiber of the forged metal follow the longitudinal form of the screw and not be cut or broken by the dies, thereby making a much stronger screw than cut screws and effecting a saving of material, as by my method the metal is stretched longitudinally and not cut away and wasted.
  • the object of my-invention is to have the fiber of the forged metal follow the longitudinal form of the screw and not be cut or broken by the dies, thereby making a much stronger screw than cut screws and effecting a saving of material, as by my method the metal is stretched longitudinally and not cut away and wasted.
  • the stretching-die A has a helical convolution or convolutions, and in this respect of course resembles the finishing-die B in the stretchingdie.
  • the convolntions have less pitch and are of a form irrespective of the shape of thread destined for the 1inished screw.
  • the bar or blank from which thescrew is to be forged is of a diameter somewhat less than the distance from e to e, (see Figs. 3 and 4,) the object of this being that the metal may have room to rise to the top of the convolution in the die.
  • the stretching-die is made short (not to exceed two convolutionsin length) that the metal may not be confined from stretching longitudinally.
  • the blank is rotated in any suitable manner while being passed through the dies, either stretchingl or finishing.
  • the blanks are passed through the dies in any suitable manner by any suitable means adapted for the purpose.
  • the pitch of the stretching-die should be about one-eighth inch less, or, say, three-eighths less, and for a screw one and a quarter inch diameter and one and a quarter inch pitch,the stretching-die would be about one inch pitch, all to allow for the additional stretching by the finishing-die.
  • Screws forged after this method aremuch stronger than cut screws, and a saving of material results from this method as compared to cutting screws, because the metal is stretched longitudinally and not cut away and wasted.

Description

(No ModeL);
N01. 47mm@ Patented July, 1892.
Y@ 3. m5. w.
lines-sas mmf m5 @W M- NITED *STATESV PATENT QEEICE.
' HENRY P. BOYD, oE soUTHAMPToN, ENGLAND.
DIE FOR swAelNe scREws.
SPECIEICATLON forming part of-Leaers Patent No. 478,219, dated July 5, 1892.
Application filed March 7, 1889. Renewed December 29, 1891. Serial No. 416,475. (No model.) Patented in England April 23. 1885, No. 5,029.
To w whom it may concern.-
Be it known that I, HENRY P. BoYD,a subliectof the Queen of Great Britain, and a resident of Southampton, in the county of-Hants, England, have invented certain new and usefnl Improvements inthe Process of Forming Raised Ribs on Rods, (for which I have obtained a patent in Great Britain, No. 5,029, dated the 23d day of April, 1885,) of which the following is a full, clear, and exact speciication.
My invention relates to improvements in methods of forging screws; and the object of my-invention is to have the fiber of the forged metal follow the longitudinal form of the screw and not be cut or broken by the dies, thereby making a much stronger screw than cut screws and effecting a saving of material, as by my method the metal is stretched longitudinally and not cut away and wasted. I attain this object by the process hereinafter described, employing the forms of die shown in the laccompanying drawings, in which- Figures l and 2 are sections of Figs. 3 and 4 on the line a y. Figs. 3 anda are plan views of the upper and lower halves of the stretching-die. Fig. 5 is a screw as partly formed by the stretching-die. y Fig. 6 is asection of Fig. 7 on the line b x. Fig. 7 is a plan view of one-half of the finishing-die. Fig. 8 is a view of a finished screw.
The stretching-die A has a helical convolution or convolutions, and in this respect of course resembles the finishing-die B in the stretchingdie. However, the convolntions have less pitch and are of a form irrespective of the shape of thread destined for the 1inished screw.
The bar or blank from which thescrew is to be forged is of a diameter somewhat less than the distance from e to e, (see Figs. 3 and 4,) the object of this being that the metal may have room to rise to the top of the convolution in the die. The stretching-die is made short (not to exceed two convolutionsin length) that the metal may not be confined from stretching longitudinally. The blank is rotated in any suitable manner while being passed through the dies, either stretchingl or finishing. The blanks are passed through the dies in any suitable manner by any suitable means adapted for the purpose.
In practice for a finished half-inch screw of half-inch pitch the pitch of the stretching-die should be about one-eighth inch less, or, say, three-eighths less, and for a screw one and a quarter inch diameter and one and a quarter inch pitch,the stretching-die would be about one inch pitch, all to allow for the additional stretching by the finishing-die. Screws forged after this method aremuch stronger than cut screws, and a saving of material results from this method as compared to cutting screws, because the metal is stretched longitudinally and not cut away and wasted.
To carry out the forging of screws with my improved dies, I fix one-half of the die upon an anvil and the upper part of the die on the end face of asteam or power-driven hammerhead or under a hydraulic ram, so that when the hammer-head or ram is` lifted the dies are opened and upon the down travel of the hammer-head or ram the dies are forced together. I may conveniently place both the first and second dies side by side upon the same anvil uand hammer or press head, so that the double operation may be proceeded with simultaneously. To forge the screw, I first prepare the plain shank with the head formed thereon. I .then heat the shank and place it in the roughing-die when the dies are opened, and a rough impress of the thread is produced upon the shank by the closing of the dies. I turn the shank about in the roughing-die, taking care in such turning that the irstmarked threads on the bolt remain in their respective grooves with the die, so as not to destroy or injure the thread first produced. After a few blows or squeezes the preliminary thread is formed with merely a beaded sinking, as shown in Figs. 1 and 2. I then transfer the bolt to the finishing-dies, (see Figs. 3 and 4,) and in this case I enter the bolt into thefirst thread of the die, allowing the blow ofthe upper die to operate only on the eX- treme point of thebolt and thereon to complete the finished thread. I nowgradually turn the bolt in the proper direction of the thread, so that it enters the die farther and farther, the first formation of the thread in- IOO surng its proper entry into the body of the die as the :bolt gradually advanced and turned.
It might be possible with great handicraft, skill, and care to form a thread from the iinishing die alone in the manner above described; but to carry out the work in the hands ot' ordinary smiths or workmen the prelimi nary formation of thebeaded thread isof great value to act as a guide in using the finishing die, and, further, by the more gradual Working up of the metal in the two operations to insure a f ull and solid thread in the finishingdie, which might otherwise be imperfect and scanty.
Having described my invention, its usefulness and application, that `which I claim as new, and desire to secure by United States Letters Patent, is*
The combination of two split dies for forging a screw-thread, consisting of a primary Split die internally threaded parallel throughout with a slightly indented and rounded primary leading-tliread of a shorter pitch than that to be eventually forged on the screw and a parallel nternallythreaded secondary split die with a fully-formed rectilinear thread ot' a longer pitch than that of the primary die to admit of elongation of the barrel of the screw during forging and corresponding to the thread finally to be forged upon the finished screw, substantially as specilied.
In testimony that I claim the foregoing I have `hereunto set my hand this 18th day of September, 1888.
HENRY I). BOYD.
lVitnesses:
ANDREW LiLLnY, FREDK. E. IIIscooKs.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2652578A (en) * 1946-04-27 1953-09-22 B E V I Bulloneria E Viteria I Wood screw manufacturing process

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2652578A (en) * 1946-04-27 1953-09-22 B E V I Bulloneria E Viteria I Wood screw manufacturing process

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