US491452A - taylor - Google Patents

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US491452A
US491452A US491452DA US491452A US 491452 A US491452 A US 491452A US 491452D A US491452D A US 491452DA US 491452 A US491452 A US 491452A
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Prior art keywords
spindle
chuck
hollow
rod
driving spindle
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23BTURNING; BORING
    • B23B27/00Tools for turning or boring machines; Tools of a similar kind in general; Accessories therefor
    • B23B27/10Cutting tools with special provision for cooling
    • B23B27/12Cutting tools with special provision for cooling with a continuously-rotated circular cutting edge; Holders therefor
    • 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
    • Y10T279/00Chucks or sockets
    • Y10T279/17Socket type
    • Y10T279/17291Resilient split socket
    • Y10T279/17307Reciprocating cam sleeve
    • 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
    • Y10T82/2514Lathe with work feeder or remover
    • 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
    • Y10T82/2514Lathe with work feeder or remover
    • Y10T82/2521Bar feeder
    • 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
    • Y10T82/2552Headstock
    • Y10T82/2562Spindle and bearings

Definitions

  • the invention has for its object a novel arpin-jointed to one end of a lever, whose other rangement or combination of parts whereby end is acted upon by a cam to force the frica metal rod is fed forward through a hollow tion clutch or grip, and consequently the spindle against a stop, and is securely held metal rod, forward, after the completion of and rotated while a turning tool or cutter each ball or sphere.
  • Such hollow chuck spindle has athrustcollar
  • the action of the machine is as follows: against which a spring is caused to bear to The metal rod is passed through the hollow force the said chuck spindle normally backchuck spindle until its front end is against ward.
  • the front end of the hollow driving the stop herein referred to; itis then gripped 85 spindle is coned to receive the chuck, so that by the chuck,by which it receives rotary mowhen the latter is forced backward by the tion; the cutter is gradually advanced against aforesaid spring, the dogs are forced toward the projecting front end of the rod, until a the center of the chuck to grip the metal rod ball or sphere is almost completely formed;
  • the hollow chuck spindle has a cap at its if desired the said front angle or corner of the rear end,which is provided with hearing balls cutter may be hollowed on its front or outer between it and the rear end of the chuck side, so as to conform more completely to the spindle to reduce friction, and such cap is shape required to complete the spherical form acted upon by a lever operated by a cam to of the ball or sphere being cut off.
  • Balls or spheres made as above described are afterward finished by lapping, as is well understood.
  • Figure 1 is a plan
  • Fig. 2 is a right side elevation
  • Fig. 3 is a left side section
  • Fig. 4 is a front elevation
  • Fig.5 is a back elevation, of a metal ball turning machine constructed according to my invention.
  • Figs. 6, 7 and 8 show the various cams.
  • Figs. 9, 10 and 11 are respectively a front, plan,and end view of the tool carrying slide.
  • Figs. 12 and 13 are respectively a plan and elevation of the tool holder.
  • Figs. 14 and 15 are various views representing details of feeder.
  • Figs. 16 are a plan and side elevation of releasing bar.
  • Figs. 17 are views of various parts of the releasing bar connections, and Figs.
  • Fig. 18 are a plan and edge view of cover for the releasing bar and its connections.
  • Fig. 19 is a sectional plan representing the feeder separately.
  • Figs. 20 are a plan and side view of the cutter separately,and
  • Fig. 21 is a sectional plan of parts of a ball making machine showing modifications.
  • a is the lathe bed
  • I) is the head-stock fixed to the said bed.
  • 0 is a hollow driving spindle mounted in the head-stock and provided with fast and loose pulleys, 0, 0 to receive a driving strap, by which the hollow spindle 0 can be rotated.
  • the fast or driving pulley c has a key fixed in its boss, and a key way is formed in the hollow driving spindle 0.
  • the front end of the hollow driving spindle c is coned out to receive the chuck, so that when the hollow driving spindle c is forced forward by the said spring (1 the dogs d are forced toward the center of the chuck to grip the metal rod 0: used in the formation of the balls or spheres.
  • the metal rod' 00 is passed through thefhollow chuck spindle d, andis gripped at the required times by the chuck dogs at, to rotate the same, and is released by said chuck at the required time to feed the same forward.
  • the hollow chuck spindle d has a cap 61 at its rear end, which bears against a hollow ad justable tail pin 6 fixed in the standard a,
  • an attached continuation 0* of the hollow driving spindle c has a steel collar 0 at its rear end held in position by screw collars c and between such collar 0 and another loose steel collar 0 thereon, acted upon by a lever f as hereinafter described, bearing balls 0 are placed to reduce friction.
  • the loose collar 0 is acted upon by the leverfin the following manner to move the hollow driving spindle a backward when it is required to release the metal rod 93 from the chuck.
  • a cam g acts upon one end of a slide f, the other end of which bears against a pin f placed between a pair of toggle linksf", one of which bears against a pin f locatedin a fixed bearing f the other bears against one end of the leverf, which is mounted on the axisf, and bears at itsother end against the said loose collar 0
  • the partsf to are fitted within a standard or frame a and a cover a is employed to cover in such parts.
  • the hollow chuck spindle d bears at its front end against a loose steel stop, collar,'or disk It, between which and the tail pin 6, the said chuck spindle d is securely held endwise.
  • a loose steel stop or collar h bears against a similar loose collar, and these are held in position by a cap or cover I) screwed to the front of the head-stock b, and such cap or cover is fitted. withta bush or steady 19 through which the rod cc passes, and by which it is supported close up to the cutter Z.
  • the feeding of the metal rod a is effected by means of a friction clutch or grip, through which it is loosely passed, and which is constructed and operated in the following manner.
  • t' is the body of the clutch orgrip, which is bored so as to permit of the free passage of the metal rod 00 therethrough, and it is formed with checks *6 located above and below the rod 00, and having vertically perforated ears 2' at each side of the rod .70 to enable the gripping levers or jaws i to be hinged or pinjointed thereto at their inner ends, and such gripping levers or jaws 2' are also pin-jointed at their outer ends to the outer ends of abar i which is hinged or pinjointed at t to one end of a feed lever j, whose other end is acted upon by a cam is to force the friction clutch or grip, and consequently the metal rod or, forward, afterthe completion of each ball or sphere.
  • Aspringi the forward end of which is located in a recess in the rear end of the tail pin 6, acts against the clutch body '5 to retain the clutch normally at its rear position.
  • the feed leverj is formed with a spring fore end j, and the feed cam 7c is arranged to feed a longer length of rod w than is required for a ball, but when the rod m comes against the stop 0 hereinafter described, said spring fore end j will give way and thereby avoid marking or injuring the rod 00. l
  • I employ a single cutter Z for the purpose of turning and cutting off the balls from the metal rod or, and such cutter Z is made with a concave cutting edge or profile of almost an exact semi-circle in shape, curved upon an aXis extending at right angles to the axis of rotation of the machine, the front angle or corner Z of which is carried fully up to, or slightly beyond, the center of the ball, while the rear angle or corner Z is slightly short of such center; such cutter Z is mounted in a square horizontal hole m formed in the projection m on the slide m, and it is secured firmly in position by being passed through a tool holder m fitted in a hole m in the pro jection m, a nut m and a large washer on passed over the screw pin m being employed to draw up the tool holder m and thereby fix the cutter Z firmly in position by binding it against the upper side of the hole m
  • the slide m is pressed forward toward the metal rod 00 by a cam n, and is drawn backward by
  • the slidem and consequently the cutter Z, may be properly adjusted in relation to the rod 0;
  • the metal rod 00 is fed forward against a movable or disengaging stop 0, which is adjusttably screwed in the outer end of a slide 0*.
  • This slide is mounted in guides m, m, and is acted upon by a camp and spring 0', the said cam acting to advance it into position in front of the rod xto regulate the distance to which the said rod is advanced,and,when such rod has been advanced and then gripped by the chuck, the spring 0', by keeping the rear end of the stop slide 0* against the cam 13, will cause such stop to retire out of contact with the end of the rod or.
  • the cams are mounted on ashaft g, which is parallel with the hollow driving spindle c, and receives motion therefrom preferably by a cross shaft r, which is driven by a worm s on the hollow driving spindle c taking into a worm wheel 0" on one end of the cross shaft 1, the other end of which is provided with a worm r which takes into a worm wheel q fixed on the cam shaft q.
  • the hollow driving spindle c is a fixture endwise and the hollow chuck spindle d is movable, the same being forced normally backwardby the spring d, which is located between the rear end of the hollow driving spindle c and the thrust collar d on the hollow chuck spindle d.
  • the lever f is also reversed in position as compared with the arrangement described with respect to Figs. 1 to 20, in order that it may act at the required times to press the hollow chuck spindle d forward, in lieu of acting to press the hollow driving spindle c backward. Also, instead of, as in the arrangement described with respect to Figs.
  • a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool, in combination with an intermittent automatic sliding grip consisting essentially of a body portion i formed with an opening through it for the passage of the rod and perforated ears 2' for supporting the gripping jaws, the gripping jaws t pivoted at their inner ends to the ears 1? and adapted to engage the blank rod when moved forward, a spring for holding the gripping jaws in their disengaged position, and an operating lever engaging the outer ends of the gripping jaws and adapted to move them into engaged position against the action of the spring, substantially as set forth.
  • a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter in combination with a stop for limiting the forward movement of the blank, and an intermittent automatic feed consisting essentially of a sliding grip i adapted to engage the blank rod when moving forward, means for returning the grip, and a pivoted leverj operated by a cam is and having a forward spring arm j engaging said grip, substantially as and for the purpose set forth.
  • a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle,an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter, in combination with an intermittent automatic feed consisting essentially of a sliding chuck 2' provided with pivoted jaws '6 and an arm i pivoted to said jaws, a lever j engaging said arm 1", a cam operating said leverj and a spring for holding said chuck 11 in retracted position, substantially as set forth.
  • a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter in combination with an automatic intermiitent feed, and a movable or disengaging stop for regulating the feed of the ltlank metal rod, and a cam and spring adapted to place said stop in front of the blank rod during the feed and to cause it to retire out of the way during the turning operation, substantially as set forth.
  • a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, and an automatic gripping and releasing chuck on said chuck spindle, in combination with a transversely supported cutting tool formed with an approximately semi-circular concave cutting edge having its outer or forward corner extending up to or a little beyond the horizontal center of rotation of the machine, and its inner corner a little short of said horizontal axis of rotation substantially as and for the purpose herein set forth.
  • a head-stock having a hollow rotating driving spindle coned out at the front end, a hollow chuck spindle passed through the driving spindle and fitted with a coned centering chuck, a spring acting between the end of the driving spindle and a collar on the chuck spinde, to keep the chuck normally in its closed position, in combination with a cam operated lever acting upon one of such spindles to move it endwise and so releasethe chuck, loose disks at the rear end of such spindle, bearing balls between such disks, a grip feeder to feed the blank metal rod forward through the chuck spindle, a spring for keeping such feeder normally free of the blank metal rod, a cam for causing such feeder to grip and feed the blank metal rod forward at the required times, a slide carrying the turning tool or cutter, a cam and weight to give the required to and fro motion to such slide, a movable or disengaging stop for regulating the feed of the blank metal rod, and

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

Description

(No Model.) I 6 Sheets-Sheet 1.- G. TAYLOR. APPARATUS FOR MANUFACTURING METAL BALLS.
Patented Feb. 7, 1893.
6 Sheets-Sheet 2.
(No Model.)
G. TAYLOR. APPARATUS FOR MANUFACTURING METAL BALLS.
Patented Feb; 7, .1893.
jar/anion" I ieaya 4 720;"
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(No model.) a Sheets-Sheet 3'.
G. TAYLOR.
APPARATUS FOR MANUFACTURING METAL BALLS. N0.'491,452. Patented Feb. 7, 1893.
FIG. 3.
(No Model.) 6 Sheets-Sheet 4.
G. TAYLOR.
APPARATUS FOR MANUFACTURING METAL BALLS.
Patented Feb. 7, 1893.
FIGA.
writ f;
mmom s. c.
rm: Npnm: versus co. Pumouwm. ASH
(No Model. s Sheets-Sheet 5.
I G. TAYLOR. I APPARATUS FOR MANUFACTURING METAL BALLS..
No. 491,452.. Patented Feb. 7, 1893.
(No Model.) 6 Sheets-Sheet 6. G. TAYLOR.
APPARATUS FOR MANUFACTURING METAL BALLS.
Patented Feb. 7,- 1893.
G90 a @Zar 8 W i @V .////A l B 1 \A 4mm 9Z ww r Nonms vcrcnspomncrro'umou WASWNGTQN n c NlTED STATES PATENT rrrcn.
GEORGE TAYLOR, OF COVENTRY, ENGLAND, ASSIGNOR TO TAYLOR, COOPER & BEDNELL, LIMITED, OF SAME PLACE.
APPARATUS FOR MAN U FACTU RING M ETAL BALLS.
SPECIFICATION forming part of Letters Patent No. 491,452, dated February '2, 1893.
Application filed October 22, 1891. Serial No. 409,568. (No model.)
To all whom it may concern: move the said chuck spindle forward when it Be it known that I, GEORGE TAYLOR, manis required to release the metal rod from the aging director of Taylor, Cooper 62: Bednell, chuck. This feeding of the metal rod is ef- Limited, a subject of the Queen of Great Britfected by means of a friction clutch or grip,
ain, residing at Raglan \Vorks, Coventry, in through which it is loosely passed; the body 5 5 the county of Warwick, England, have inof such clutch or grip is acted upon by a vented certain new and useful Improvements spring to retain it normally at its rear posiin Machinery to be Employed in the Manution; the grippinglevers or jaws are mounted facture of Metal Balls orSpheres, of which the on pin-joints in the said body, and they are I0 following is a specification. also pin-jointed to a bar which is hinged or 60 The invention has for its object a novel arpin-jointed to one end of a lever, whose other rangement or combination of parts whereby end is acted upon by a cam to force the frica metal rod is fed forward through a hollow tion clutch or grip, and consequently the spindle against a stop, and is securely held metal rod, forward, after the completion of and rotated while a turning tool or cutter each ball or sphere. 5 shapes a ball or sphere, and is released at I employ a single cutter for the purpose of the required time to permit of a fresh feed turning and cutting oif the balls from the thereto, the cutter being gradually moved formetal rod, and such cutter is made with a ward by a cam when acting on the metal,and concave cutting edge or profile of almost an being withdrawn therefrom by a weight or exact semi-circle in shape, the front angle or 70 spring on the completion of the turning of a corner of which is carried fully up to, or ball or sphere. slightly beyond, the center of the ball, while In carrying my invention into effect I emthe rear angle or corner is slightly short of ploy a hollow driving spindle mounted in a such center; such cutter is mounted in a slide,
head-stock and provided with fast and loose which is pressed forward toward the metal 75 pulleys to receive a driving strap, by which rod by a cam, and is drawn backward by a thesaid hollow driving spindlecan be rotated. weight or spring, which keeps it firmly Through this hollow driving spindle is passed against the cam. The cams are mounted on another hollow spindle, whose front end cara shaft which is parallel with thehollowdriv- 3o ries a coned chuck fitted with three outwardly ing spindle, and receives motion therefrom 8o sprung gripping dogs, and the rear end of preferably by a cross shaft and screw gear. such hollow chuck spindle has athrustcollar, The action of the machine is as follows: against which a spring is caused to bear to The metal rod is passed through the hollow force the said chuck spindle normally backchuck spindle until its front end is against ward. The front end of the hollow driving the stop herein referred to; itis then gripped 85 spindle is coned to receive the chuck, so that by the chuck,by which it receives rotary mowhen the latter is forced backward by the tion; the cutter is gradually advanced against aforesaid spring, the dogs are forced toward the projecting front end of the rod, until a the center of the chuck to grip the metal rod ball or sphere is almost completely formed;
used in the formation of the balls or spheres. it then retires, the rod is again advanced the 90 Thesaid metal rod is passed through the 1101- length required for making another ball or low chuck spindle and is gripped at the resphere, when the cutter is again advanced quired times by the chuck dogs to rotate the and,inturning anotherballorsphere,thefront same, and is released by said chuck at the angle or corner of the cutter severs the pretime required to feed the same forward. viously turned ball or sphere from the rod; 95
The hollow chuck spindle has a cap at its if desired the said front angle or corner of the rear end,which is provided with hearing balls cutter may be hollowed on its front or outer between it and the rear end of the chuck side, so as to conform more completely to the spindle to reduce friction, and such cap is shape required to complete the spherical form acted upon by a lever operated by a cam to of the ball or sphere being cut off. [00
Balls or spheres made as above described are afterward finished by lapping, as is well understood.
I would here remark that in lieu of making the hollow driving spindle a fixture endwise and giving endwise motion to the hollow chuck spindle, I prefer to make the chuck spindle a fixture endwise and to move the driving spindle, the parts connected therewith being suitably modified, as will be hereinafter described.
In order that my said invention may be more clearly understood and readily carried into effect, I will proceed aided by the accompanying drawings, more fully to describe the same.
In the drawings Figure 1 is a plan, Fig. 2 is a right side elevation, Fig. 3 is a left side section, Fig. 4 is a front elevation, and Fig.5 is a back elevation, of a metal ball turning machine constructed according to my invention. Figs. 6, 7 and 8 show the various cams. Figs. 9, 10 and 11 are respectively a front, plan,and end view of the tool carrying slide. Figs. 12 and 13 are respectively a plan and elevation of the tool holder. Figs. 14 and 15 are various views representing details of feeder. Figs. 16 are a plan and side elevation of releasing bar. Figs. 17 are views of various parts of the releasing bar connections, and Figs. 18 are a plan and edge view of cover for the releasing bar and its connections. Fig. 19 is a sectional plan representing the feeder separately. Figs. 20 are a plan and side view of the cutter separately,and Fig. 21 is a sectional plan of parts of a ball making machine showing modifications.
In all the figures like parts are indicated by similar letters of reference.
I will first describe the arrangement represented at Figs. 1 to 20.
a is the lathe bed, I) is the head-stock fixed to the said bed.
0 is a hollow driving spindle mounted in the head-stock and provided with fast and loose pulleys, 0, 0 to receive a driving strap, by which the hollow spindle 0 can be rotated. The fast or driving pulley c has a key fixed in its boss, and a key way is formed in the hollow driving spindle 0. Through this hollow spindle c is passed another hollow spindle d, whose front end carries a coned chuck fitted with three gripping dogs d, which are sprung outward .by means of a light annular spring 01 while near the rear end of such hollow chuck spindle d, a thrust collar d is screwed thereon, against which a spring 01 inclosed in an annular space formed in the rear end of the 11011 W driving spindle c, is caused to bear, to force the said hollow driving spindle normally forward. The front end of the hollow driving spindle c is coned out to receive the chuck, so that when the hollow driving spindle c is forced forward by the said spring (1 the dogs d are forced toward the center of the chuck to grip the metal rod 0: used in the formation of the balls or spheres. The metal rod' 00 is passed through thefhollow chuck spindle d, andis gripped at the required times by the chuck dogs at, to rotate the same, and is released by said chuck at the required time to feed the same forward.
The hollow chuck spindle d has a cap 61 at its rear end, which bears against a hollow ad justable tail pin 6 fixed in the standard a,
and an attached continuation 0* of the hollow driving spindle c has a steel collar 0 at its rear end held in position by screw collars c and between such collar 0 and another loose steel collar 0 thereon, acted upon by a lever f as hereinafter described, bearing balls 0 are placed to reduce friction. The loose collar 0 is acted upon by the leverfin the following manner to move the hollow driving spindle a backward when it is required to release the metal rod 93 from the chuck. A cam g acts upon one end of a slide f, the other end of which bears against a pin f placed between a pair of toggle linksf", one of which bears against a pin f locatedin a fixed bearing f the other bears against one end of the leverf, which is mounted on the axisf, and bears at itsother end against the said loose collar 0 The partsf to are fitted within a standard or frame a and a cover a is employed to cover in such parts.
The hollow chuck spindle d bears at its front end against a loose steel stop, collar,'or disk It, between which and the tail pin 6, the said chuck spindle d is securely held endwise. Such loose steel stop or collar h bears against a similar loose collar, and these are held in position by a cap or cover I) screwed to the front of the head-stock b, and such cap or cover is fitted. withta bush or steady 19 through which the rod cc passes, and by which it is supported close up to the cutter Z.
The feeding of the metal rod a; is effected by means of a friction clutch or grip, through which it is loosely passed, and which is constructed and operated in the following manner. t' is the body of the clutch orgrip, which is bored so as to permit of the free passage of the metal rod 00 therethrough, and it is formed with checks *6 located above and below the rod 00, and having vertically perforated ears 2' at each side of the rod .70 to enable the gripping levers or jaws i to be hinged or pinjointed thereto at their inner ends, and such gripping levers or jaws 2' are also pin-jointed at their outer ends to the outer ends of abar i which is hinged or pinjointed at t to one end of a feed lever j, whose other end is acted upon by a cam is to force the friction clutch or grip, and consequently the metal rod or, forward, afterthe completion of each ball or sphere. Aspringi the forward end of which is located in a recess in the rear end of the tail pin 6, acts against the clutch body '5 to retain the clutch normally at its rear position. The feed leverj is formed with a spring fore end j, and the feed cam 7c is arranged to feed a longer length of rod w than is required for a ball, but when the rod m comes against the stop 0 hereinafter described, said spring fore end j will give way and thereby avoid marking or injuring the rod 00. l
I employ a single cutter Z for the purpose of turning and cutting off the balls from the metal rod or, and such cutter Z is made with a concave cutting edge or profile of almost an exact semi-circle in shape, curved upon an aXis extending at right angles to the axis of rotation of the machine, the front angle or corner Z of which is carried fully up to, or slightly beyond, the center of the ball, while the rear angle or corner Z is slightly short of such center; such cutter Z is mounted in a square horizontal hole m formed in the projection m on the slide m, and it is secured firmly in position by being passed through a tool holder m fitted in a hole m in the pro jection m, a nut m and a large washer on passed over the screw pin m being employed to draw up the tool holder m and thereby fix the cutter Z firmly in position by binding it against the upper side of the hole m The slide m is pressed forward toward the metal rod 00 by a cam n, and is drawn backward by a weight 011*, or it may be a spring acting upon the outer end of the horizontal arm of a crank lever 11 connected with the slide, which keeps it firmly against the cam 01. In order that the slidem, and consequently the cutter Z, may be properly adjusted in relation to the rod 0;, I fit the slide 122 with a nib m which bears against the cam n and is adjustably held in lugs or ears in, by means of a nutm located between such lugs m and acting on a screw thread formed on the stem of the nib m The metal rod 00 is fed forward against a movable or disengaging stop 0, which is adustably screwed in the outer end of a slide 0*. This slide is mounted in guides m, m, and is acted upon by a camp and spring 0', the said cam acting to advance it into position in front of the rod xto regulate the distance to which the said rod is advanced,and,when such rod has been advanced and then gripped by the chuck, the spring 0', by keeping the rear end of the stop slide 0* against the cam 13, will cause such stop to retire out of contact with the end of the rod or. The cams are mounted on ashaft g, which is parallel with the hollow driving spindle c, and receives motion therefrom preferably by a cross shaft r, which is driven by a worm s on the hollow driving spindle c taking into a worm wheel 0" on one end of the cross shaft 1, the other end of which is provided with a worm r which takes into a worm wheel q fixed on the cam shaft q.
The halls, when out off from the bar 0:, fall into the trough If, whence they are conducted to the receptacle bya channel 25' in the slide m.
I will now describe the modifications represented at Fig. 21. In this case the hollow driving spindle c is a fixture endwise and the hollow chuck spindle d is movable, the same being forced normally backwardby the spring d, which is located between the rear end of the hollow driving spindle c and the thrust collar d on the hollow chuck spindle d. The lever f is also reversed in position as compared with the arrangement described with respect to Figs. 1 to 20, in order that it may act at the required times to press the hollow chuck spindle d forward, in lieu of acting to press the hollow driving spindle c backward. Also, instead of, as in the arrangement described with respect to Figs. 1 to 20, )lacing the bearing balls 0 between loose collars c c, on a tube forming a continuation of the hollow driving spindle o and retaining the loose collar 0 in position thereon by screw collars c, the bearing balls 0 are in this latter arrangement placed between loose collars c 0 at the rear end of a tube d fixed to the rear end of the hollow chuck spindle (I, such collars and bearing balls being inclosed within a cap (1 fitting over the end of the tube (i In this case also the lever f acts upon the said cap d instead of on the loose collar 0 as in the arrangement described with respect to Figs. 1 to 20. In short the difference between the two arrangements herein shown and described is, that whereas in that described with respect to Figs. 1 to 20, and which is the form I prefer, the hollow driving spindle c is movable endwise and the hollow chuck spindle d is a fixture, the reverse is the case in that described with respect to Fig. 21, the connected and operating parts being suitably arranged for each case.
Having fully described my invention, what I desire to claim, and secure by Letters Patcut, is:
1. In machinery for turning metal balls or spheres, the combination of the head stock having the hollow rotating driving spindle coned out at its forward end, a hollow chuck spindle passed through the driving spindle and carrying a cone centering chuck whose jaws are held normally up in open position by an annular spring, a spiral spring between the end of the driving spindle and a collar on the chuck spindle for keeping the chuck normally closed onto the blank rod, the continuation of the hollow driving spindle, a collar secured thereon, anti-friction washers, balls between said washers, a pivoted lever-engagin g one of said anti-friction washers and moving the driving spindle longitudinally for releasing the chuck, means for opening said lever, a feeding mechanism and a cutting mechanism substantially as described.
2. In a machine for turning metal balls or spheres, the combination of the head stock having the hollow rotating driving spindle, a hollow chuck spindle passed through the driving spindle and carrying a chuck which is held in operative position by said driving spindle through the means of a spiral spring supported between the end of said driving spindle and a collar on the chuck spindle, a collar on the driving spindle, a pivoted lever f in engagement with said collar, the toggle levers f engaging the other end of said lever f, the slide f, the cam 9, suitable feeding mechanism, and suitable cutting mechanism, substantially as set forth.
3. In machinery for turning metal balls or spheres, a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool, in combination with an intermittent automatic sliding grip consisting essentially of a body portion i formed with an opening through it for the passage of the rod and perforated ears 2' for supporting the gripping jaws, the gripping jaws t pivoted at their inner ends to the ears 1? and adapted to engage the blank rod when moved forward, a spring for holding the gripping jaws in their disengaged position, and an operating lever engaging the outer ends of the gripping jaws and adapted to move them into engaged position against the action of the spring, substantially as set forth.
4. In machinery for turning metal balls, or spheres, a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter in combination with a stop for limiting the forward movement of the blank, and an intermittent automatic feed consisting essentially of a sliding grip i adapted to engage the blank rod when moving forward, means for returning the grip, and a pivoted leverj operated by a cam is and having a forward spring arm j engaging said grip, substantially as and for the purpose set forth.
5. In machinery for turning metal balls or spheres, a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle,an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter, in combination with an intermittent automatic feed consisting essentially of a sliding chuck 2' provided with pivoted jaws '6 and an arm i pivoted to said jaws, a lever j engaging said arm 1", a cam operating said leverj and a spring for holding said chuck 11 in retracted position, substantially as set forth.
6. In machinery for turning metal balls or spheres, a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, an automatic gripping and releasing chuck on said chuck spindle, and a turning tool or cutter in combination with an automatic intermiitent feed, and a movable or disengaging stop for regulating the feed of the ltlank metal rod, and a cam and spring adapted to place said stop in front of the blank rod during the feed and to cause it to retire out of the way during the turning operation, substantially as set forth.
7. In machinery for turning metal balls or spheres, a head stock having a hollow driving spindle, a hollow chuck spindle within the driving spindle, and an automatic gripping and releasing chuck on said chuck spindle, in combination with a transversely supported cutting tool formed with an approximately semi-circular concave cutting edge having its outer or forward corner extending up to or a little beyond the horizontal center of rotation of the machine, and its inner corner a little short of said horizontal axis of rotation substantially as and for the purpose herein set forth.
8. In machinery employed in the turning of metal balls or spheres, a head-stock, having a hollow rotating driving spindle coned out at the front end, a hollow chuck spindle passed through the driving spindle and fitted with a coned centering chuck, a spring acting between the end of the driving spindle and a collar on the chuck spinde, to keep the chuck normally in its closed position, in combination with a cam operated lever acting upon one of such spindles to move it endwise and so releasethe chuck, loose disks at the rear end of such spindle, bearing balls between such disks, a grip feeder to feed the blank metal rod forward through the chuck spindle, a spring for keeping such feeder normally free of the blank metal rod, a cam for causing such feeder to grip and feed the blank metal rod forward at the required times, a slide carrying the turning tool or cutter, a cam and weight to give the required to and fro motion to such slide, a movable or disengaging stop for regulating the feed of the blank metal rod, and a cam and spring to place such stop in front of the blank rod during the feed, and to cause it to retire out of the Way during the turning operation, substantially as herein shown and described.
GEORGE TAYLOR.
Witnesses:
WILLIAM EDWARD WARD, 3 Gordon Terrace, Cope St, Coventry.
WALTER J AMES HAYWOOD, Stony Stanton Road, Coventry.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505643A (en) * 1945-07-26 1950-04-25 Newman M Marsilius Pin machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505643A (en) * 1945-07-26 1950-04-25 Newman M Marsilius Pin machine

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