US539600A - Automatic stud-turning machine - Google Patents

Automatic stud-turning machine Download PDF

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US539600A
US539600A US539600DA US539600A US 539600 A US539600 A US 539600A US 539600D A US539600D A US 539600DA US 539600 A US539600 A US 539600A
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slide
rod
jaws
chuck
stud
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q39/00Metal-working machines incorporating a plurality of sub-assemblies, each capable of performing a metal-working operation
    • B23Q39/04Metal-working machines incorporating a plurality of sub-assemblies, each capable of performing a metal-working operation the sub-assemblies being arranged to operate simultaneously at different stations, e.g. with an annular work-table moved in steps
    • B23Q39/042Metal-working machines incorporating a plurality of sub-assemblies, each capable of performing a metal-working operation the sub-assemblies being arranged to operate simultaneously at different stations, e.g. with an annular work-table moved in steps with circular arrangement of the sub-assemblies
    • B23Q39/044Metal-working machines incorporating a plurality of sub-assemblies, each capable of performing a metal-working operation the sub-assemblies being arranged to operate simultaneously at different stations, e.g. with an annular work-table moved in steps with circular arrangement of the sub-assemblies having at least one tool station cooperating with each work holder, e.g. multi-spindle lathes
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S29/00Metal working
    • Y10S29/079Removable debris receptacle
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/51Plural diverse manufacturing apparatus including means for metal shaping or assembling
    • Y10T29/5104Type of machine
    • Y10T29/5109Lathe
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/51Plural diverse manufacturing apparatus including means for metal shaping or assembling
    • Y10T29/5104Type of machine
    • Y10T29/5109Lathe
    • Y10T29/5113Commutator
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T82/00Turning
    • Y10T82/14Axial pattern
    • Y10T82/149Profiled cutter
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T82/00Turning
    • Y10T82/25Lathe
    • Y10T82/2524Multiple

Definitions

  • This invention relates to a novel arrangement of the spindles, the slide or carrier for the cutting tools, and the feed mechanism, for a duplex stud turning machine; and the objects of the invention are to stiffen and strengthen the tool supports while facilitating the discharge of the work-pieces or studs from the machine, to feed a succession of the stock or blank rods automatically to the feed jaws, and to reduce the number of parts by actuating the chuck clamps and feeding mechanism by connections to a single cam.
  • Figure 1 is a side elevation of the entire machine with some of the minor details omitted.
  • Fig. 1 is an end view of the bed and cheeks for the rod-guide upon a larger scale.
  • Fig. 2 is a side elevation of the box-frame and the operative parts, omitting certain details.
  • Fig. 3 is a view upon the inner side of the movable head carrying the cutters, and Fig. 4 a side elevation of the same.
  • Fig. 4 is an enlarged view of one stud.
  • Fig. 5 is a plan of the head; Fig. 6, a side elevation, drawn full size, partly in section where hatched, of the devices for centering the blank.
  • Fig. 5 is a plan of the head;
  • Fig. 6, a side elevation, drawn full size, partly in section where hatched, of the devices for centering the blank.
  • Fig. 5 is a plan of the head;
  • Fig. 6, a side elevation, drawn full size, partly in section where
  • FIG. 7 is an end view of the parts at the right hand of Fig.6.
  • Fig. 9 is a rear elevation of the machine with the rod-guides entirely removed.
  • Fig. 10 is a plan of the feedingslide, and Fig. 11 a side elevation of the same with the bracket for carrying the slide detached from the rear of the main frame.
  • Fig. 12 is an elevation of the cross-piece having a feed-rod guide at one end and the gage or stop at the opposite end.
  • Fig. 1 is drawn on half the scale of Fig. 2, and the remaining figures upon a still larger scale, to show the details of construction.
  • the machine is illustrated with a box frame A carrying a head B, in which are mounted two parallel spindles O rotated uponthe same level and carrying chucks O upon their forward ends.
  • a bracket- D is fitted to move to and from the chucks upon horizontal ways D, a threaded gage bar :1 being provided with nuts d to adjust the bracket, and a screw d to set the bracket against the nuts.
  • Set screws D in the side of the bracket secure it rigidly to the ways when adjusted.
  • a vertical tool slide E is reciprocated with a fixed stroke upon the front of the bracket by a link F connected with an oscillating lever F.
  • Such lever is actuated by a rollf fitted to a cam K upon a shaft K and rotated by worm wheel G and worm shaft G
  • Forming tools a are clamped upon the sides of the slide E in-holders 01, adjusted vertically thereon by wedges 01..
  • These tools consist of disks with a cutting notch in theedge, and having the proper profile to shape a stud, such as is shown in Fig. 4.
  • 'Such forming cutters areused, as the cutting edgemaybe resharpened without changing its form.
  • the cut off tools I) of similar construction are mounted upon the slide E by attachment to an adjustable plate I) (Fig. 3) having a screw b to set the same to and from the forming t-ools.
  • the plate I) When thus adjusted, the plate I) is clamped to the slide E by bolt h
  • the out off tools are held rigidly upon shanks c which are adjustable in the plate I) to and from the chucks O, by screws 0.
  • Each of the chucks C may be provided with suitable clamping jaws, which would be actuated through an internal sleeve and an attached collar H which is shifted longitudinally by the lever arms I and cone 1'.
  • a stand K carrying a flat bed K is shown in Fig. 1, to support a series of stock rods J from which the studs are formed.
  • the bot tom rod of the series is shown extended through the feed clamping jaws n and outside of the chuck C, (Fig. 1.)
  • a bracket M with dovetails M upon its upl per and lower edges, is projected from the rear of the head 13, and a feed slide N is mounted thereon and provided with arms N carrying fixed jaws n for clamping the feed rod.
  • the movable jaws n are pivoted upon the arms N, close to the fixed jaws, by pins 02 and attached to levers n whose inner ends rest upon a spring stud 0 mounted adjustably in an auxiliary slide P, which is fitt ted movably upon the feed slide N.
  • the auX- iliary slide P is reciprocated by a link P, and its movement, as shown in Figs. 10 and 11, is restricted by a stop 29 attached to the slide.
  • the head of the stud 0 is pressed normally outward by a spring 0 within the anxiliary slide, and its projection is limited by adjusting nuts 0 to prevent it from closing the clamping jaws n, it, too tightly.
  • the bed K upon the stand K is provided with a series of transverse guides L, and with a stop or gage L for the outer ends of the. rods.
  • the guides are formed each with an inclined slotlopen at the top to insert the. rods, and terminated at the lower end with a short vertical extension or slot l at the lower. end, and the bed K is provided with laterally adjustable checks at the opposite sides of such vertical slot.
  • a cross piece L is attached to the bracket M as shown in Figs. 10 to 12 inclusive, and supports a rod, gage or stop L adjacent to the jaws n, and also one of the guidesLadjacent to such stop, to direct the lowest rod of the series intothe jaws.
  • the stop L and guide L are supported adjustably upon the cross1 piece L by bolts Z to adapt them for variousi strokes of the feed jaws.
  • the stop L is formed with a notch or passage Z through which the jaws n, n, are moved by the recip rocation of the slide N; the jaws passing back of the stop, as indicated by the arrow 1 in? Fig. 10, to the position indicated by dotted lines Z where they grasp the rod and propel it forward through the spindle, and beyond the chuck, as shown in Fig. 1.
  • the feed slide N is provided with set screws N to press a gib adjnstably upon the bracket M to produce a frictional resistance to its movement. VVheu the link Pis reciprocated, the auxiliary slide P strikes the stops p and through these stops carries the slide with it in either direction. The clamping jaws n, n, slip over the rod in the backward movement of the feed slide, and grasp the rod in the forward movement, the stud 0 exerting an elastic pressure upon theja-ws in such forward movement.
  • the movement of the auxiliary slide back and forth upon the feed slide N thus varies the operation of the spring 0 upon the movable jaws, relaxing the pressure of the spring during their backward movement, and thus relieving the jaws from the rod during their backward movement, and compressing the spring during the first part of the forward movement until the movable jaws bite the rod '1", after which the feed and auxiliary slides move forward together.
  • the jaws of the chuck may be changed as is common, to fit rods of different sizes; the hollow within the spindle being hushed by a piece of tubing, to center the small rods within the spindle.
  • the bottom rod in the guides then operates to push forward the rod within such centering tube, and thus feeds it to the chuck until it is wholly worked up.
  • the slots Z in the rod guides operate, as shown in Fig. 12, to sustain a series of the rods in readiness for use, and to feed them automatically downward into line with the clamping jaws, each 'rod taking the place of the one in the vertical slot when the latter is wholly withdrawn by the feeding mechanism. By inclining the slot Z, the weight upon the bottom rod is greatly diminished; while the movement of theseriesdownwardis maintained.
  • Thespindies 0 are continuously rotated by pulleys C and the rod grasped by the chuck C is therefore spun around in the guides at a high velocity.
  • the centrifugal force would cause the rear end of the rod to fly out of the guide if it were not restrained laterally; for which purpose the longitudinal cheeks m are mounted upon the bed K atthe sidesof the slot Z.
  • a slider M is fitted to the lower dovetail upon the bracket M and carries a yokej fitted to collars 71 upon the cone I, and such slider is reciprocated in a proper sequence to the feed slide N, to close the chuck jaws upon the rod 0" when the forward stroke of the feed jaws is concluded, by means of the same cam G.
  • This cam is mounted on shaft K and pro vided with a single groove, as shown in Fig. 2, in which are fitted at different points the rolls f,f,which actuate respectively the feed slide and the chuck.
  • the rollf is connected with the link P by bent levers P and P which are united by an extensible link P, the lower end of which is jointed adjustably to a slot 1) in the lever P by a bolt 12 and nut 19
  • the stroke and position of the feed slide upon the bracket M may thus be varied at pleasure.
  • the roll f is connected with the slide 3' through a lever 1 A projection g in the cam groove operates to first move the feed slide forward and then close the chuck jaws.
  • the cam K shown in Fig. 1, then operates to move the tool slide up and down one complete stroke before the feed is renewed.
  • the cam K upon the upward stroke of the tool.
  • Fig. 8 shows means for separating the studs from the chips and lubricant, by arranging an oilpan Q beneath the lower end of each chute,
  • the pivot S for the lever F is provided at one end with a sleeve T extended through one side of the box frame, as shown in Fig. 8, and provided upon its outerend with a hand-lever T.
  • the inner end of the sleeve is made eccentric and fit-ted within the hub F of the lever F, and the handle T is clamped by a bolt t to a slotted segmentU upon one side of the frame, as shown in Fig. 2.
  • the pivot S is fastened rigidly, as by screw 15 in its outer bearing, and the fulcrum of the lever is thus rendered firm, while the eccentric is so proportioned as to slightly vary the center of the lever by moving the handle T.
  • duplex stud machines have been constructed with one of the chuck spindles arranged above the other upon a horizontal frame, with the cutter slide movable horizontally; in which case the upper cutter or forming tool for the upper spindle is much farther than the other from the cutter slide, and the tool support for such upper cutter is necessarily weaker and moreliable to vibration. lVith one spindle above the other, the lower spindle is much less accessible. If a chute be employed to protect it from the lubricant, the chips, and the finished studs discharge from the upper cutter.
  • the spindles may both be set close to the frame, and the forming tools arranged at the same height above the base of the bracket D; by which arrangement the tools are supported with great firmness, and are equally accessible upon either side of the machine; while the discharge of the chips and the finished studs from both of the cutters is effected, as shown in Fig. 8, without obstructing access to either.
  • the stroke of the slide, for making studs of various sizes, is varied, with the use of the cam K by adjusting the lower end of the link F to a slot F in the lever F while the forming cutters a are adjusted independently
  • the studs may be upon the-slide E, by means of the wedges a, so as to finish the two studs when desired of exactly the same diameter.
  • An opening A is shown in Fig. 2 in the side of the box frame, to give access to the bolt F for adjusting the same.
  • a door may be fitted to the opening A.
  • the cut off tools I) are omitted from Fig. 3, to show their shanks c clamped in boxes 0 in which they are adjustable to and from the chucks C by the screws 0.
  • the point at which the stud is out 01f is varied by adj usting such screw and then clamping the shank of the cutter by the cap of the box 0
  • the screw 01 serves to set the bracket D to and from the chucks O to admit a forming tool of the desired width, and the gage d perinits the readjustment of the bracket in precisely the same position, when it has been drawn backward for inspection or sharpening of the tools.
  • the adjustment of the plate 1) upon the tool slide E permits the adjustment of the cut off tools in conformity with the stroke givento the slide, and all the parts are thus adapted for a widerange of variation in their work.
  • Figs. 3 to 7 inclusive means are'shown for gaging the length of the work piece, and steadying the end of the rod r adjacent to the cutting tools, and also for centering or countersinking the end of the rod when required. Means are also shown for retracting the centering and drilling devices from the end of the rod.
  • a tubular bearingu is shown attached by a foot 24 to the bracket D, in the rear of the cutter slide E, to which the bearings of the tools a and b are secured.
  • a gage spindle o is fitted to the bearing a in line with the chuck spindle C, to carry a socket support 1; for the end of the rod 7'. The spindle is automatically retracted by a leverVpivoted to a boss V upon the bracket D.
  • a block W containing a cam groove to is attached to the rear edge of the tool slide E,
  • Fig. 5 shows these parts of their natural size, with the socket o inclosing the end of the rod 1'.
  • the cam groove to is made parallel at each end with the movement of the slide, and inclined between the ends; thus shifting the lever V at the middle of its stroke and holding it stationary when the cutters a and b are operating upon the rod.
  • the cam block W operates as asliding cam moving downward with the slide E at the close of the forming operation, and the groove to then acting upon the leverVto retract the socket o.
  • a drill o is shown inserted through IZC the spindlev for centering or countersinking the end of the rod; and such drill is provided at the rear end with a block 33' attached rigidly thereto and connected bya pin to a bell crank 12 which is pivoted upon a boss :0 on the bracket D.
  • the tool slide E is provided of the bell crank when the tool slide rises during the operation of the forming tool, and drives the drill forward into the end of the rotating rod, thus countersinking it as desired.
  • the gage spindle u may be provided with a conical socket or a point, or any other suitable appliance to steady the end of the rod.
  • a single cam and connections may be used for actuating the feeding and chuck mechanisms,and the number of parts thus greatly reduced; while the actuation of the single tool slide E also serves to actuate the required tools in a suitable manner to operate upon two work pieces rotated simultaneously by the two spindles.
  • a spindle a chuck carried thereby, suitable means for opening and closing the chuck, a reciprocating feed slide carrying jaws in line with the rear end of the spindle, one of the jaws being stationary upon the slide and the other pressed elastically thereto and adapted to,
  • the combination with a chuck and spindle and means'for automatically clamping the rod intermediate to the movement of the feed jaws, of the feed slide N carrying fixed and movable jaws with a lever to actuate the movable jaw, and a spring for pressing such lever, the auxiliary slide P fitted movably upon the feed slide Nand opcrating duringthe feeding movement to com press the spring, and during the reverse movement to relax the spring and thereby release the grip of the movable jaw, and suitable connections to the auxiliary slide and the chuck for actuatingthem successiv ly, Substantially as herein set forth.
  • the combination with a suitable bed and a head having horizontal spindle with chuck and means for feeding a rod through the same, of a sliding bracket horizontally adjustable to and from the spindle chuck, with the rod (1 and gage nut fitted adj ustably thereto, the screw d for setting the bracket to the gage, and a tool slide movable vertically with a uniform stroke upon the bracket, and a forming tool and cut off tool adjusted upon the tool slide, as herein set forth.
  • a stud machine the combination, with a suitablebed and a head carrying ahorizontal spindle'with a chuck and means for feeding a rod through the same, of a vertically movable tool slide provided with tools for forming and cutting 0d the stud as set forth, a lever having apivotwith adjustable eccentric bearing, a cam for actuating one end of the lever, a link extended from the slide and connected by slot and adjustable bolt with the opposite end of the lever, and a handle with clamping device for adjusting the eccentric bearing, substantially as herein set forth.
  • the combination with a spindle and chuck for clamping the rod, of a slide reciprocated vertically with a uniform stroke before the chucks and carrying the tools for forming and cutting off, as set forth, reciprocating jaws for feedin g the rod'through such chuck, means for actuating the chuck to clamp the rod intermediate to the movement of the feed jaws, the rotary cam G with single groove, the levers having rolls f, f fitted to different parts of the same groove, and connections to such levers for actuating the feeding jaws and the chuck clamps in the proper sequence, substantially as herein set forth.
  • the combination with a spindle and chuck for clamping the rod and clamping jaws recip'rocated longitudinally along the rod, of the bed K extended in the rear of the spindle, vertical stops for guiding the ends of a series of rods, and a series of transverse guides at intervals along the rods and adapted to hold the lower rod in line with the aperture between the reciprocating jaws, substantially as herein set forth,
  • the combination with the reciprocatingclampin g jaws for automatically grasping a rod, of the bed K extended in the rear of the spindle, the series of transverse guides provided with guide slots to hold a series of rods, and the checks to hold the bottom rod from lateral motion, substantially as herein set forth.
  • the combination with the reciprocating feeding jaws for automatically grasping a rod, of vertical stops at the end of the rod, with suitable passage Z through the forward stop for the clamping j aws, and a guide or guides for holding a series of the rods between the stops. with the bottom rod in line with the jaws, as herein set forth.
  • the combination with a chuck spindle and a tool slide reciprocated transversely before the chuck with a forming cutter thereon, of the stationary bearing to carrying the gage spindle o in line with the chuck and a lever Vactuated by a sliding cam to reciprocate the gage spindle, as herein set forth.
  • the combination with a chuck spindle and a tool slide reciprocated transversely before the chuck with a forming cutter thereon, of the stationary bearing 'u carrying the gage spindle o in line with the chuck, a drill inserted through the gage spindle, and means connected with the moving tool slide for pressing the drill into the end of the rod, substantially as hereinset forth.
  • a sliding bracket horizontally adj ustable to and from the spindle chucks with a gage d, d, and means, as the screw 01*, for setting the bracket to the gage, a tool slide movable vertically with a uniform stroke upon the bracket and provided with two forming tools and two out off tools, substantially as herein set forth.
  • a duplex stud machine the combination, with a suitable bed anda head having two parallel spindles rotated upon the same level of a vertically moving tool slide, provided with two forming tools and two out 0E tools as set forth, a lever having a pivot with adjustable eccentric bearing, a cam for actuating one end of the lever, and a link connectin g the tool slide ad j ustably with the opposite end of the lever, substantially as herein set forth.
  • the feeding mechanism for a duplex stud machine consisting of the bracket M affixed to the spindle head, the feed slide N carrying the fixed jaws n and the movable jaws n with levers m the slide P with stop upon the feed slide and the stud 0 with spring for pressing it toward the feed levers, and a cam with connections for reciprocating'the slide P, as herein set forth.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Gripping On Spindles (AREA)

Description

(No Model. 6 Sheets-Sheet 1.
0. TYBERG.
AUTOMATIC STUD TURNING MACHINE.
No. 539,600. L PatentedMay 21, 1895.
v In vex n 0! $61M 0 UAW,
: NORRIS FEYIZRS co. womuma, msmumou u. c.
6 Sheets-Sheet 3.
(No Model.)
0 TYBERG AUTOMATIC STUD TURNING MAGHINE.
No. 539,600. Patent ed May 21, 1895.
' Inventor.
Jiiesi:
( o 6 Sheets-Sheet 4.
0. TYBERG. AUTOMATIC STUD TURNING MACHINE.
Patented May 21, 1895.
Inacnivr. v
(No Model.) 6 Sheets-Sheet 5.
0. TYBERG. AUTOMATIG STUD TURNING MACHINE.
N0. 539,600. Patented May 21, 1895.
In z/cn 2-01.
(No Model.) 6 Sheets-Sheet 6.
- 0. TYBERG.
.AUTOMATIG STUD TURNING MACHINE.
Patented May 21, 1895.
jnuewior 0 Jflr, ,%4. ZMZ
THE Norms PEYERS co. PNOTO LITHO.. WASHINGTON. u. c
Uisiraa seams PATENT 'rrrcn.
OLUF TYBERG, OF BROOKLYN, YORK, ASSIGNOR TO THE GARVIN MACHINE COMPANY, OF NEW YORK.
AUTOMATIC STU D-TU RNING MACHINE.
' SPECIFICATION forming part of Letters Patent No. 539,600, dated May 21, 1895.
Application filed April 20,1894. Serial No. 608,279. (No model.)
To all whom it may concern:
Be it known that I, OLUF TYBERG, a subject of the King of Denmark, residing at Brooklyn, Kings county, New York, have invented certain new and useful Improvements in Automatic Stud-Turning Machines, fully described and represented in the following specification and the accompanying drawings forming a part of the same.
This invention relates to a novel arrangement of the spindles, the slide or carrier for the cutting tools, and the feed mechanism, for a duplex stud turning machine; and the objects of the invention are to stiffen and strengthen the tool supports while facilitating the discharge of the work-pieces or studs from the machine, to feed a succession of the stock or blank rods automatically to the feed jaws, and to reduce the number of parts by actuating the chuck clamps and feeding mechanism by connections to a single cam.
These improvements,with others, are illustrated in the annexed drawings, in which Figure 1 is a side elevation of the entire machine with some of the minor details omitted. Fig. 1 is an end view of the bed and cheeks for the rod-guide upon a larger scale. Fig. 2 is a side elevation of the box-frame and the operative parts, omitting certain details. Fig. 3 is a view upon the inner side of the movable head carrying the cutters, and Fig. 4 a side elevation of the same. Fig. 4 is an enlarged view of one stud. Fig. 5 is a plan of the head; Fig. 6, a side elevation, drawn full size, partly in section where hatched, of the devices for centering the blank. Fig. 7 is an end view of the parts at the right hand of Fig.6. Fig. Sis across-section of the boxi'rame carrying the operative parts, taken on line a: 00 in Fig. 2. Fig. 9 is a rear elevation of the machine with the rod-guides entirely removed. Fig. 10 is a plan of the feedingslide, and Fig. 11 a side elevation of the same with the bracket for carrying the slide detached from the rear of the main frame. Fig. 12 is an elevation of the cross-piece having a feed-rod guide at one end and the gage or stop at the opposite end.
Only the cam for actuating the tool slide is shown in Fig. 1, and the cam for actuating the chuck clamps and feeding mechanism in Fig. 2; while both cams are shown in Fig. 9.
Fig. 1 is drawn on half the scale of Fig. 2, and the remaining figures upon a still larger scale, to show the details of construction.
The machine is illustrated with a box frame A carrying a head B, in which are mounted two parallel spindles O rotated uponthe same level and carrying chucks O upon their forward ends. A bracket- D is fitted to move to and from the chucks upon horizontal ways D, a threaded gage bar :1 being provided with nuts d to adjust the bracket, and a screw d to set the bracket against the nuts. Set screws D in the side of the bracket secure it rigidly to the ways when adjusted. A vertical tool slide E is reciprocated with a fixed stroke upon the front of the bracket by a link F connected with an oscillating lever F. Such lever is actuated by a rollf fitted to a cam K upon a shaft K and rotated by worm wheel G and worm shaft G Forming tools a are clamped upon the sides of the slide E in-holders 01, adjusted vertically thereon by wedges 01.. These tools, as shown in Fig. 3, consist of disks with a cutting notch in theedge, and having the proper profile to shape a stud, such as is shown in Fig. 4. 'Such forming cutters areused, as the cutting edgemaybe resharpened without changing its form. The cut off tools I) of similar construction are mounted upon the slide E by attachment to an adjustable plate I) (Fig. 3) having a screw b to set the same to and from the forming t-ools. When thus adjusted, the plate I) is clamped to the slide E by bolt h The out off tools are held rigidly upon shanks c which are adjustable in the plate I) to and from the chucks O, by screws 0. Each of the chucks C may be provided with suitable clamping jaws, which would be actuated through an internal sleeve and an attached collar H which is shifted longitudinally by the lever arms I and cone 1'.
A stand K carrying a flat bed K is shown in Fig. 1, to support a series of stock rods J from which the studs are formed. The bot tom rod of the series is shown extended through the feed clamping jaws n and outside of the chuck C, (Fig. 1.)
A bracket M with dovetails M upon its upl per and lower edges, is projected from the rear of the head 13, and a feed slide N is mounted thereon and provided with arms N carrying fixed jaws n for clamping the feed rod. The movable jaws n are pivoted upon the arms N, close to the fixed jaws, by pins 02 and attached to levers n whose inner ends rest upon a spring stud 0 mounted adjustably in an auxiliary slide P, which is fitt ted movably upon the feed slide N. The auX- iliary slide P is reciprocated by a link P, and its movement, as shown in Figs. 10 and 11, is restricted by a stop 29 attached to the slide. The head of the stud 0 is pressed normally outward by a spring 0 within the anxiliary slide, and its projection is limited by adjusting nuts 0 to prevent it from closing the clamping jaws n, it, too tightly.
The bed K upon the stand K is provided with a series of transverse guides L, and with a stop or gage L for the outer ends of the. rods. The guides are formed each with an inclined slotlopen at the top to insert the. rods, and terminated at the lower end with a short vertical extension or slot l at the lower. end, and the bed K is provided with laterally adjustable checks at the opposite sides of such vertical slot.
A cross piece L is attached to the bracket M as shown in Figs. 10 to 12 inclusive, and supports a rod, gage or stop L adjacent to the jaws n, and also one of the guidesLadjacent to such stop, to direct the lowest rod of the series intothe jaws. The stop L and guide L are supported adjustably upon the cross1 piece L by bolts Z to adapt them for variousi strokes of the feed jaws. The stop L is formed with a notch or passage Z through which the jaws n, n, are moved by the recip rocation of the slide N; the jaws passing back of the stop, as indicated by the arrow 1 in? Fig. 10, to the position indicated by dotted lines Z where they grasp the rod and propel it forward through the spindle, and beyond the chuck, as shown in Fig. 1.
The feed slide N is provided with set screws N to press a gib adjnstably upon the bracket M to produce a frictional resistance to its movement. VVheu the link Pis reciprocated, the auxiliary slide P strikes the stops p and through these stops carries the slide with it in either direction. The clamping jaws n, n, slip over the rod in the backward movement of the feed slide, and grasp the rod in the forward movement, the stud 0 exerting an elastic pressure upon theja-ws in such forward movement. The movement of the auxiliary slide back and forth upon the feed slide N thus varies the operation of the spring 0 upon the movable jaws, relaxing the pressure of the spring during their backward movement, and thus relieving the jaws from the rod during their backward movement, and compressing the spring during the first part of the forward movement until the movable jaws bite the rod '1", after which the feed and auxiliary slides move forward together.
The jaws of the chuck may be changed as is common, to fit rods of different sizes; the hollow within the spindle being hushed by a piece of tubing, to center the small rods within the spindle. The bottom rod in the guides then operates to push forward the rod within such centering tube, and thus feeds it to the chuck until it is wholly worked up. The slots Z in the rod guides operate, as shown in Fig. 12, to sustain a series of the rods in readiness for use, and to feed them automatically downward into line with the clamping jaws, each 'rod taking the place of the one in the vertical slot when the latter is wholly withdrawn by the feeding mechanism. By inclining the slot Z, the weight upon the bottom rod is greatly diminished; while the movement of theseriesdownwardis maintained. Thespindies 0 are continuously rotated by pulleys C and the rod grasped by the chuck C is therefore spun around in the guides at a high velocity. The centrifugal force would cause the rear end of the rod to fly out of the guide if it were not restrained laterally; for which purpose the longitudinal cheeks m are mounted upon the bed K atthe sidesof the slot Z. One
or both of such cheeks may be made adjustable by the screws m The checks are shown in Fig. l, but are omitted in Fig. 1 to show the lower rod in line with the feeding jaws.
A slider M is fitted to the lower dovetail upon the bracket M and carries a yokej fitted to collars 71 upon the cone I, and such slider is reciprocated in a proper sequence to the feed slide N, to close the chuck jaws upon the rod 0" when the forward stroke of the feed jaws is concluded, by means of the same cam G. This cam is mounted on shaft K and pro vided with a single groove, as shown in Fig. 2, in which are fitted at different points the rolls f,f,which actuate respectively the feed slide and the chuck. The rollfis connected with the link P by bent levers P and P which are united by an extensible link P, the lower end of which is jointed adjustably to a slot 1) in the lever P by a bolt 12 and nut 19 The stroke and position of the feed slide upon the bracket M may thus be varied at pleasure. The roll f is connected with the slide 3' through a lever 1 A projection g in the cam groove operates to first move the feed slide forward and then close the chuck jaws. The cam K shown in Fig. 1, then operates to move the tool slide up and down one complete stroke before the feed is renewed. The cam K upon the upward stroke of the tool. slide, moves the forming tool a upward quickly, and then feeds it slowly against the blank or rod r, and shapes it in the desired manner; the reverse movement of the tool slide retracting the forming tool and cutting off the finished stud by the cutter b. The retraction of the cut-off tool commences before the rod is fed forward, the
inga lubricant upon the rod, and chutes qare inclined beneath the cutters, to catch the lubricant and the chips discharged from the cutters; which it will be understood are attached rigidly to the tool 'slide.
Fig. 8 shows means for separating the studs from the chips and lubricant, by arranging an oilpan Q beneath the lower end of each chute,
. with its edge a little beyond the bottom of the chute. With this arrangement the momentum of the studs 0" as they slide down the chute carry them beyond the edge of the oil pan, while the oil and chips adhering to the end of the chute drip into the pan, as indicated by the particles 0*. caught in a separate receptacle. The pivot S for the lever F is provided at one end with a sleeve T extended through one side of the box frame, as shown in Fig. 8, and provided upon its outerend with a hand-lever T. The
inner end of the sleeve is made eccentric and fit-ted within the hub F of the lever F, and the handle T is clamped by a bolt t to a slotted segmentU upon one side of the frame, as shown in Fig. 2. The pivot S is fastened rigidly, as by screw 15 in its outer bearing, and the fulcrum of the lever is thus rendered firm, while the eccentric is so proportioned as to slightly vary the center of the lever by moving the handle T.
I-Ieretofore, duplex stud machines have been constructed with one of the chuck spindles arranged above the other upon a horizontal frame, with the cutter slide movable horizontally; in which case the upper cutter or forming tool for the upper spindle is much farther than the other from the cutter slide, and the tool support for such upper cutter is necessarily weaker and moreliable to vibration. lVith one spindle above the other, the lower spindle is much less accessible. If a chute be employed to protect it from the lubricant, the chips, and the finished studs discharge from the upper cutter.
With the present construction the spindles may both be set close to the frame, and the forming tools arranged at the same height above the base of the bracket D; by which arrangement the tools are supported with great firmness, and are equally accessible upon either side of the machine; while the discharge of the chips and the finished studs from both of the cutters is effected, as shown in Fig. 8, without obstructing access to either. The stroke of the slide, for making studs of various sizes, is varied, with the use of the cam K by adjusting the lower end of the link F to a slot F in the lever F while the forming cutters a are adjusted independently The studs may be upon the-slide E, by means of the wedges a, so as to finish the two studs when desired of exactly the same diameter. An opening A is shown in Fig. 2 in the side of the box frame, to give access to the bolt F for adjusting the same. A door may be fitted to the opening A.
The cut off tools I) are omitted from Fig. 3, to show their shanks c clamped in boxes 0 in which they are adjustable to and from the chucks C by the screws 0. The point at which the stud is out 01f is varied by adj usting such screw and then clamping the shank of the cutter by the cap of the box 0 The screw 01 serves to set the bracket D to and from the chucks O to admit a forming tool of the desired width, and the gage d perinits the readjustment of the bracket in precisely the same position, when it has been drawn backward for inspection or sharpening of the tools.
The adjustment of the plate 1) upon the tool slide E permits the adjustment of the cut off tools in conformity with the stroke givento the slide, and all the parts are thus adapted for a widerange of variation in their work.
In Figs. 3 to 7 inclusive, means are'shown for gaging the length of the work piece, and steadying the end of the rod r adjacent to the cutting tools, and also for centering or countersinking the end of the rod when required. Means are also shown for retracting the centering and drilling devices from the end of the rod. A tubular bearingu is shown attached bya foot 24 to the bracket D, in the rear of the cutter slide E, to which the bearings of the tools a and b are secured. A gage spindle o is fitted to the bearing a in line with the chuck spindle C, to carry a socket support 1; for the end of the rod 7'. The spindle is automatically retracted by a leverVpivoted to a boss V upon the bracket D. A block W containing a cam groove to is attached to the rear edge of the tool slide E,
and operates upon a roller w in one end of the lever V; the other end being jointed by a pin 10 to the spindle 'u. A part of the fixtures is broken away in Fig. 5. Fig. 6 shows these parts of their natural size, with the socket o inclosing the end of the rod 1'. The cam groove to is made parallel at each end with the movement of the slide, and inclined between the ends; thus shifting the lever V at the middle of its stroke and holding it stationary when the cutters a and b are operating upon the rod.
The cam block W operates as asliding cam moving downward with the slide E at the close of the forming operation, and the groove to then acting upon the leverVto retract the socket o. A drill o is shown inserted through IZC the spindlev for centering or countersinking the end of the rod; and such drill is provided at the rear end with a block 33' attached rigidly thereto and connected bya pin to a bell crank 12 which is pivoted upon a boss :0 on the bracket D. The tool slide E is provided of the bell crank when the tool slide rises during the operation of the forming tool, and drives the drill forward into the end of the rotating rod, thus countersinking it as desired.
The gage spindle u may be provided with a conical socket or a point, or any other suitable appliance to steady the end of the rod.
From the above description it will be seen that the means for actuating the feed mechanism and the chucks by a single'cam, greatly simplifies the construction, and that the application of the slide N and M to the single bracket M enables the same bracket to hold the feeding mechanism and the clamp actuating mechanism in linewith the spindles.
Where these improvements are applied to a duplex stud machine, a single cam and connections may be used for actuating the feeding and chuck mechanisms,and the number of parts thus greatly reduced; while the actuation of the single tool slide E also serves to actuate the required tools in a suitable manner to operate upon two work pieces rotated simultaneously by the two spindles.
Having thus set forth the nature of the invention, what is claimed herein is-- 1. An organized machine for turning studs,
comprising the following agencies: a spindle, a chuck carried thereby, suitable means for opening and closing the chuck, a reciprocating feed slide carrying jaws in line with the rear end of the spindle, one of the jaws being stationary upon the slide and the other pressed elastically thereto and adapted to,
feed the rod forward into the chuck by an elastic grip upon the rod, and means for relievin g such elastic gripduring the backward movement of the slide and jaws, substantially as herein set forth.
2. In a stud machine, the combination, with v the feed slide N carrying fixed and movable jaws, with lever to actuate the latter, of the auxiliary slideP fitted movably upon the feed slide N with means for producing an elasticl grip upon the rod and means for reciprocat-:
ing the auxiliary slide, substantially as herein set forth.
3. In a stud machine, the combination, with 3 a spindle carrying a chuck and suitable de-. vices for feeding a rod through the same, of a movable tool sli'de provided with a formingl tool and cut off tool, as set forth, an outwardly inclined chute for discharging the studs, and
an oil pan with its edge below the edge of the chute, and the chute operating to sepa'ratethe studs from the chips, substantially as herein set forth.
4C. In a stud machine, the combination, with a chuck and spindle and means'for automatically clamping the rod intermediate to the movement of the feed jaws, of the feed slide N carrying fixed and movable jaws with a lever to actuate the movable jaw, and a spring for pressing such lever, the auxiliary slide P fitted movably upon the feed slide Nand opcrating duringthe feeding movement to com press the spring, and during the reverse movement to relax the spring and thereby release the grip of the movable jaw, and suitable connections to the auxiliary slide and the chuck for actuatingthem successiv ly, Substantially as herein set forth.
5. In a stud machine, the combination, with a suitable bed and a head having horizontal spindle with chuck and means for feeding a rod through the same, of a sliding bracket horizontally adjustable to and from the spindle chuck, with the rod (1 and gage nut fitted adj ustably thereto, the screw d for setting the bracket to the gage, and a tool slide movable vertically with a uniform stroke upon the bracket, and a forming tool and cut off tool adjusted upon the tool slide, as herein set forth.
6. In a stud machine, the combination, with a suitablebed and a head carrying ahorizontal spindle'with a chuck and means for feeding a rod through the same, of a vertically movable tool slide provided with tools for forming and cutting 0d the stud as set forth, a lever having apivotwith adjustable eccentric bearing, a cam for actuating one end of the lever,a link extended from the slide and connected by slot and adjustable bolt with the opposite end of the lever, and a handle with clamping device for adjusting the eccentric bearing, substantially as herein set forth.
7. In a stud machine, the combination, with a spindle and chuck for clamping the rod, of a slide reciprocated vertically with a uniform stroke before the chucks and carrying the tools for forming and cutting off, as set forth, reciprocating jaws for feedin g the rod'through such chuck, means for actuating the chuck to clamp the rod intermediate to the movement of the feed jaws, the rotary cam G with single groove, the levers having rolls f, f fitted to different parts of the same groove, and connections to such levers for actuating the feeding jaws and the chuck clamps in the proper sequence, substantially as herein set forth.
8. In a stud machine, the combination, with a spindle and chuck for clamping the rod and clamping jaws recip'rocated longitudinally along the rod, of the bed K extended in the rear of the spindle, vertical stops for guiding the ends of a series of rods, and a series of transverse guides at intervals along the rods and adapted to hold the lower rod in line with the aperture between the reciprocating jaws, substantially as herein set forth,
9. In a stud machine, the combination, with the reciprocatingclampin g jaws for automatically grasping a rod, of the bed K extended in the rear of the spindle, the series of transverse guides provided with guide slots to hold a series of rods, and the checks to hold the bottom rod from lateral motion, substantially as herein set forth.
10. In a stud machine, the combination, with the reciprocating feeding jaws for automatically grasping a rod, of vertical stops at the end of the rod, with suitable passage Z through the forward stop for the clamping j aws, and a guide or guides for holding a series of the rods between the stops. with the bottom rod in line with the jaws, as herein set forth.
11. In a stud machine, the combination, with a chuck spindle and a tool slide reciprocated transversely before the chuck with a forming cutter thereon, of the stationary bearing to carrying the gage spindle o in line with the chuck and a lever Vactuated by a sliding cam to reciprocate the gage spindle, as herein set forth.
12. In a stud machine, the combination, with a chuck spindle and a tool slide reciprocated transversely before the chuck with a forming cutter thereon, of the stationary bearing 'u carrying the gage spindle o in line with the chuck, a drill inserted through the gage spindle, and means connected with the moving tool slide for pressing the drill into the end of the rod, substantially as hereinset forth.
13. In a duplex stud machine, the combination, with a suitable bed and a head having two parallel spindles rotated upon the same level, of a sliding bracket horizontally adj ustable to and from the spindle chucks with a gage d, d, and means, as the screw 01*, for setting the bracket to the gage, a tool slide movable vertically with a uniform stroke upon the bracket and provided with two forming tools and two out off tools, substantially as herein set forth.
14. In a duplex stud machine, the combination, with a suitable bed anda head having two parallel spindles rotated upon the same level of a vertically moving tool slide, provided with two forming tools and two out 0E tools as set forth, a lever having a pivot with adjustable eccentric bearing, a cam for actuating one end of the lever, and a link connectin g the tool slide ad j ustably with the opposite end of the lever, substantially as herein set forth.
15. In an organized machine for turning studs, the combination, with two parallel spindles carrying chucks and rotated upon the same level, of a tool slide reciprocated vertically with a uniform stroke before thechueks and carrying forming tools and cut off tools, as set forth, duplex reciprocating jaws for feeding two rods simultaneously, the rotary cam G with single groove, and the levers I and P having rolls f andf fitted to different parts of the samegroove, with connections for actuating the chuck clamps and the feeding jaws successively, as herein set forth.
16. The feeding mechanism for a duplex stud machine, consisting of the bracket M affixed to the spindle head, the feed slide N carrying the fixed jaws n and the movable jaws n with levers m the slide P with stop upon the feed slide and the stud 0 with spring for pressing it toward the feed levers, and a cam with connections for reciprocating'the slide P, as herein set forth.
In testimony whereof I have hereunto set my hand in the presence of two subscribing witnesses.
OLUF TYBERG.
Witnesses:
E. F. BATES, THOMAS S. CRANE.
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018224381A1 (en) 2017-06-09 2018-12-13 Arkema France High-purity 1,1,1,2,3,3-hexafluoropropane, method for producing same and use thereof
WO2019016457A1 (en) 2017-07-17 2019-01-24 Arkema France Method for storing 1,1,1,2,3,3-hexafluoropropane and container for storing same
FR3096984A1 (en) 2017-06-09 2020-12-11 Arkema France High purity 1,1,1,2,3,3-hexafluoropropane, its manufacturing process and use
WO2024013443A1 (en) 2022-07-12 2024-01-18 Arkema France Method for purifying 1,1,1,2,3,3-hexafluoropropane

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018224381A1 (en) 2017-06-09 2018-12-13 Arkema France High-purity 1,1,1,2,3,3-hexafluoropropane, method for producing same and use thereof
FR3096984A1 (en) 2017-06-09 2020-12-11 Arkema France High purity 1,1,1,2,3,3-hexafluoropropane, its manufacturing process and use
WO2019016457A1 (en) 2017-07-17 2019-01-24 Arkema France Method for storing 1,1,1,2,3,3-hexafluoropropane and container for storing same
WO2024013443A1 (en) 2022-07-12 2024-01-18 Arkema France Method for purifying 1,1,1,2,3,3-hexafluoropropane
FR3137845A1 (en) 2022-07-12 2024-01-19 Arkema France Process for purifying 1,1,1,2,3,3-hexafluoropropane

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