US3713323A

US3713323A - Die for cold drawing

Info

Publication number: US3713323A
Application number: US00082748A
Authority: US
Inventors: I Ivanier
Original assignee: Individual
Current assignee: Individual
Priority date: 1968-10-30
Filing date: 1970-10-21
Publication date: 1973-01-30
Anticipated expiration: 1990-01-30
Also published as: IL32159A0; IL32159A; DE1954779A1; BE733727A; NL6908560A; FR2021858A1

Abstract

A die and method for cold drawing of metal wire, the die having a substantially circular passage extending throughout its length and tapering from an inlet to an outlet, there being at least three spaced apart grooves extending spirally about the passage and intervened by an arcuate surface of the passage. The grooves are of substantially the same cross section at the inlet and outlet ends of the die. This application is a continuing divisional application on applicant''s copending U.S. application, Ser. No. 808,594, filed Mar. 19, 1969.

Description

United States Patent [1 1 Ivanier [ll] 3,713,323 1 Jan. 30, 1973 [541 DIE FOR COLD DRAWING [76] Inventor: lsin lvanler, 5509 Westbourne,

Montreal, Quebec, Canada [22] Filed: 0ct.2l, 1970 [2]] Appl. No.: 82,748

Related U.S. Application Data [62] Division Qrser. bio/808,594, March l9, I969. [30] Foreign Application Priority Data Mar. 18, I969 Canada ..46. 097 Oct. 30, 1969 Great Britain ..5i, 544/69 [52] U.S. Cl. ..72/467, 72/274 [51] Int. Cl. ..B2lc 3/00, B2lc 1/00 [58] Field of Search ..72/467, 274, 293, 343

[56] References Cited UNITED STATES PATENTS 2,928,528 3/1960 Kelday ..72/467 Primary Examiner-Richard J; Her b st Assistant Examiner-R. M. Rogers Attorney-Alan Swabey ABSTRACT A die and method for cold drawing of metal wire, the die having a substantially circular passage extending throughout its length and tapering from an inlet to an outlet, there being at least three spaced apart grooves extending spirally about the passage and intervened by an arcuate surface of the passage. The grooves are of substantially the same cross section at the inlet an outlet ends of the die.

6 Claims, 10 Drawing Figures SHEET 1 or 2 FIG. 2

FIG I n l 2 T m INVENTOR Isin IVANIER PAIENIEDmso 191s 3.713.323

saw 2 or 2 v 'INVENTOR Isin IVANIER ATTORNEY DIE FOR COLD DRAWING This application is a continuing divisional application on applicant's copending U.S. application, Ser. No. 808,594, filed Mar. 19, 1969.

BACKGROUND OF THE INVENTION a. Field of the Invention This invention relates to the production of cold drawn screw type wire, and nails or screws made therefrom. In a still further aspect, this invention relates to a novel die used in carrying out the process of the present invention to produce these products; and in a still further aspect, to'a device for forming the novel die.

b. Description of Prior Art U.S. Pat. No. 946,631 Ballou (1910) and U.S. Pat. No. 2,928,528 Kelday et al. (1960) describe the cold drawing of metal wire. The latter patent discloses the cold drawing of wire through a rotatable die which has a passage of gradually diminishing cross-sectional area throughout a substantial part of its working length. The passage has a general cross-sectional shape which is non-circular over at least a substantial portion of its working length and is helically twisted about its longitudinalaxis throughout said portion of non-circular cross-sectional shape, so that a wire drawn by the die has crests and valleys in which the grain flow lines run longitudinally across the valleys in the direction of the longitudinal axis of the wire. The resulting article has desirable characteristics imparted by the cold drawing operation and other advantages as elaborated in the Kelday et a]. patent. The surface of the drawn article, that is the wire or nails made from it, is essentially provided with helical flat or concave flutes intervened by lands.

SUMMARY OF INVENTION Wire according to the present invention is also cold drawn through a rotatable die. But the die of the invention has special characteristics differing from those of the prior art die as will be explained and understood in terms of the wire produced. The wire, as drawn, has a core of overall circular cross-section and integrally standing out from it, in equally spaced apart relationship, at least three helically extending ribs. Adjacent ribs are intervened by convex surfaces of the core, which on a trans-axial cross-section through the wire,

are arcuate. v

In a preferred construction, each rib tapers from a relatively blunt root to a tip which may be sharp or slightly rounded, for example having a radius of not more than about five thousandths of an inch. Preferably, the root of each rib is not less than one third and not greater than equal to the length of the arcuate surface of the core between adjacent ribs. Preferably, the height of each rib is at least as great and not more than twice the width of its root.

The wire may be drawn through a die of special construction which is an aspect of the invention. The die is made using a reamer which is also an aspect of the invention. The reamer has essentially the configuration of the wire described above, except that it is tapered for the purpose of conforming to the tapered opening in the die when the latter is being fashioned. The tips of its ribs are preferably sharp. The reamed die has an opening, tapering to a narrower dimension from the entrance to the exit end and helical grooves complementary to the ribs of the reamer and arcuate surfaces intervening the grooves.

The wire may be drawn by the use of the die, in accordance with another aspect of the invention, as follows. The die is held in a manner well known, permitting it to rotate freely as the wire is drawn through the helically grooved working opening. In the drawing process, the wire immediately comes into contact with the grooved working surface and stays in contact with it until leaving the die. It is a feature of the method of the invention that wire emerging from the grooved die has an outside diameter markedly greater than the outside diameter of the wire as it enters the die. The working surface of the die of the invention is longer than usual for a die for making fluted wire as in the aforesaid Kelday et al. patent.

BRIEF DESCRIPTION OF DRAWINGS Having thus generally described the nature of the invention, it will be referred to in greater detail by reference to the accompanying drawings, which illustrate preferred embodiments and in which:

FIG. 1 is a side elevation of a reamer used to make a die for drawing wire according to the invention;

FIG. 2 is an enlarged cross-section on the line 2-2 of FIG. 1;

FIG. 3 is an end view illustrating a manner of forming the reamer, showing forming tools in contact with a partly formed reamer;

FIG. 4 is an entrance end view of a die according t the invention; I

FIG. 5 is a longitudinal cross-section through the die of FIG. 4;

FIG. 6 is a side elevation of helically ribbed wire as cold drawn according to the invention;

FIG. 7 is an enlarged cross-section through a four ribbed wire according to the invention;

FIG. 8 is a pair of views (side elevation and head plan view, respectively) showing a screw type nail;

FIG. 9 is a pair of views similar to those vof FIG. 8 showing a screw with a slotted head;

FIG. 10 is a pair of views similar to those of FIGS. 8 and 9 showing a screw having a recessed head.

DESCRIPTION OF PREFERRED EMBODIMENTS Incarrying out the invention, a reamer of a special form is made from tool steel. One form is shown in FIGS. 1 and 2. The forming tool shown, by way of example, has six ribs, but it should be understoodthat the number of ribs can be anywhere from three or more and can go up to 15 or more, depending on the size of the wire and the gauge of the wire to be cold drawn, as will be explained more fully later. A preferred range is from three to nine ribs.

Referring to FIGS. 1 and 2, the reamer indicated generally as A is provided with a shank l5 and a work ing part 17. The part 17 has a core of overall circular cross-section and tapers from the junction with the shank 15 to its free end (the arcuate surfaces 19) with integral protruding ribs 22. The ribs 22 and the intervening arcuate (on a section normal to the axis of the body) parts 19 extend helically the length of the working part 17.

The reamer A is formed from a piece of cylindrical tool steel stock. In FlG. 3 on the left-hand side of the drawing, a fraser B is shown in contact with the tip ofa partly finished tool and at the right-hand side of the drawing, a forming tool B is shown in contact with the wider end of the partially finished tool. FIG. 3 is actually an end view of the forming tool looking from the tapered end. The forming tool runs up and down the stock and at the same time the stock turns about its axis so that the forming tool describes a helical path along the stock and gradually shaves the stock cutting it away along predetermined strips and leaving the ribs 22 intervened by the arcuate surfaces 19. For every diameter of wire and/or number of ribs a different sized forming tool will have to be used to appropriately fashion the reamer.

The reamer is used to form the die by pushing the reamer in and out of the die opening of starting circular cross-section tapering from entrance to exit, using a special machine, as is understood by die makers.

The die is shown as C and it has an overall tapering passage 31. In accordance with the invention, there are reamed out grooves 33 intervening ungrooved arcuate surfaces 35. The die is made of a suitable hard or hardened material such as hardened tool steel or other material from which wire drawing dies are made. The difference in the use of the die C, from the use of dies as known, is that the wire that enters the die is not of a greater diameter than the wire that leaves the die, but, on the contrary, the wire entering the die has a smaller diameter and comes out having a larger outside diameter (measured to the tips of the ribs 22). The die C is mounted for free rotation in a unit in which it is held in ball bearings to allow for its free rotation by the drawing action. ln the drawing operation, the usual lubricants for cold drawing of metal wires may be employed.

In the drawing operation, the wire is preferably first reduced from a larger diameter to a desired smaller diameter by passing it through a preliminary drawing operation in a normal die having a circular cross-section, and, then immediately passing it through a die grooved according to the invention. The wire entering the grooved die has an outside diameter less than the overall diameter (tip to tip of ribs) of the ribbed wire leaving the grooved die.

A typical wire resulting from the drawing operation according to the invention is shown in FIGS. 6 and 7. The wire has a core D of circular cross-section and upstanding integral ribs 41 which run helically along the core D, intervened by arcuate surfaces 45 extending helically along and about the core D. The wire can have three or more ribs with three to nine preferred. The

Typical nails and screws are shown in FIGS. 8 to 10. In the case of either the nail or the screw, it can be driven without a screwdriver, simply by hammering. However,

in its removal a screwdriver maybe usedas for a screw or it can be forced out like a nail.

The taper of the reamer and of the working opening in the die may be from 1 to l2 from the die axis depending on the diameter of wire to be drawn. According to the invention, the groove and intervening ungrooved surfaces preferably extend the entire working grooves of the opening in the tool steel insert of the die, so that the'wire entering the die immediately comes into contact with the grooved portion of the die and the wire leaving the die leaves from a grooved portion of the die.

Metals which may be cold drawn according to the invention are any type of metal or alloy normally used for cold drawing, for example steel, aluminum and its alloys, bronze, phosphor bronze, copper or brass. Steel is the most common. The direction of the spiral ribs on the nails or the screws can be either righthand or lefthand.

One advantage of the invention is that screws can be made which can be substituted for those normally made by roll-threading. The nails of the invention have higher strength, for the same diameter, than nails of the fluted type. This means that a larger quantity of the product is available from the same weight of metal. The holding power of the product of the invention is markedly greater than the holding power of a fluted product of the same gauge.

Theoretically, the gauge of the wire which can be drawn is unlimited. The preferred gauges are from 14 gauge up to wires of a diameter of one inch and more. The preferred number of ribs may vary from three to nine, the maximum number of ribs being limited by the diameter of the wire. The width of the rib at the root can be anywhere from one to one third the length of the are between the roots of respective ribs. As for pitch, this can range from four to .17 turns per inch.

Table 1 gives a representative range of gauges, namely preferred ranges of external diameters, internal diameters, height of. ribs, number of ribs, ranges of pitch, and desirable relationships between these quantitative factors. The linear dimensions are expressed in inches. Taking for example a 5 gauge wire, the external diameter (meaning tip to tip) would be 0.212 inches. The preferred ranges would be: number of ribs 3 to 6; a core diameter of from about 0.106 to about 0.140 inches; height of ribs from about 0.35 to 0.053, and pitch from about-.83 to about .4 turns per inch. The height of each rib is measured from its tip or crest to the intersection of a line from the tip or crest perpendicular to the core axis with a line representing an extension of the arcuate surface of the core.

TABLE I (PREFERRED RANGES) Gauge External Range of Range for Number Range Diameter* Core Height of of Ribs of Pitch (ins diameter Ribs (turns/in.)

' (ins.) (ins.)

7/0 .500 .250.375 .062-.l25 3-9 .33 .17 6/0 .464 .232-.348 .058.l l6 3-9 .37 .18 5/0 .432 .2l6.324 .054-. l08 3-9 .42 .l9 4/0 .400 .200.300 .050-.l00 3-9 .045 .2l 3/0 .372 .l86.279 .046.093 3-9 .5 .22 00 .348 .l74.26l .043.087 3-9 .56 .24 0 .324 .l62.243 .040-.08l 3-9 .59 .26 l .300 .l50-.225 .037-.075 3-9 .62 .28 2 .276 .l38 -.207 .035-.069 3-9 .67 .3 3 I .252' .l26.l84 .035.063 3-8 .71 .33 4 .232 .l 16-.162 .035.058- 3-7 .77 .37 5 .212 .l06-. l40 .O35.053 3-6 .83 .4

" As measured tip to tip of ribs.

I claim:

- has a taper of 1 to 12.

3. A die as defined in claim 1, wherein each said groove is substantially triangular in shape and has a root, and wherein the root dimension of said cross-sectional shape at said inlet is about equal to the root dimension of said cross-sectional shape at said outlet.

4. A die for cold drawing metal wire as defined in claim 1, wherein the width of each groove between its adjacent concave surfaces is in the range of l to 1/3 the arcuate distance on each of said concave surfaces between adjacent of said grooves.

5. A die for cold drawing metal wire as defined in claim 2, wherein the width of each groove between its adjacent concave surfaces is in the range of l to 1/3 the arcuate distance on each of said concave surfaces between adjacent of said grooves.

6. A die for cold drawing metal wire as defined in claim 3, wherein the width of each groove between its adjacent concave surfaces is in the range of l to 1/3 the arcuate distance on each of said concave surfaces between adjacent of said grooves.

* l l it l

Claims

1. A die for cold drawing metal wire comprising, a die body having a drawing passage of substantially circular cross-section throughout its length and tapering from an inlet to an outlet, at least three equally spaced apart grooves extending spirally about said passage with adjacent grooves intervened by a concave surface of said passage, said grooves being of substantially the same cross-secTional shape at said inlet and said outlet and extending the full working length of said die.

2. A die as defined in claim 1, wherein said passage has a taper of 1* to 12* .

4. A die for cold drawing metal wire as defined in claim 1, wherein the width of each groove between its adjacent concave surfaces is in the range of 1 to 1/3 the arcuate distance on each of said concave surfaces between adjacent of said grooves.

5. A die for cold drawing metal wire as defined in claim 2, wherein the width of each groove between its adjacent concave surfaces is in the range of 1 to 1/3 the arcuate distance on each of said concave surfaces between adjacent of said grooves.