US267214A - Metal-screw machine - Google Patents
Metal-screw machine Download PDFInfo
- Publication number
- US267214A US267214A US267214DA US267214A US 267214 A US267214 A US 267214A US 267214D A US267214D A US 267214DA US 267214 A US267214 A US 267214A
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- chuck
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- tool
- rod
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- Expired - Lifetime
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- 210000001847 Jaw Anatomy 0.000 description 8
- 238000010276 construction Methods 0.000 description 6
- 238000003801 milling Methods 0.000 description 6
- 239000002184 metal Substances 0.000 description 4
- 241000220479 Acacia Species 0.000 description 2
- 235000010643 Leucaena leucocephala Nutrition 0.000 description 2
- 101700027603 SPNS1 Proteins 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000001788 irregular Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000006011 modification reaction Methods 0.000 description 2
- 230000001105 regulatory Effects 0.000 description 2
- 238000010079 rubber tapping Methods 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B11/00—Automatic or semi-automatic turning-machines incorporating equipment for performing other working procedures, e.g. slotting, milling, rolling
-
- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/51—Plural diverse manufacturing apparatus including means for metal shaping or assembling
- Y10T29/5168—Multiple-tool holder
- Y10T29/517—Laterally movable stock holder
Definitions
- This invention relates more particularly to automatic machines for making metal or machine screws from a rod, although applicable, at least in part, to other machines; and it involves an improvement in the general ar rangement ofthe machine, in the feeding mechanism, in the screw-threading mechanism, and also in the special construction and combination of the different parts.
- the tools for turning down and threading the rod have been moved back and forth to cause them to act upon the rod in a revolving chuck.
- this motion is imparted to the chuck.
- Lateral movement to bring the several tools in line with the rod or axis of' the chuck is also imparted to the chuck, the tools being held in a stationary support or supports.
- the clampv by which the rod is fed at intervals between the chuck-jaws has been placed inside or back ofthe jaws, so that the rod is pushed forward.
- the clamp is placed outside the jaws, so as to act upon the projecting portion of the rod.
- a friction-clamp could be used for the purpose 5 but a four-motion-feed clamp which successively grasps and advances the rod, releases it, and returns is deemed most advantageous. It constitutes itself a portieri of the invention.
- Figure 1 is a central vertical longitudinal section; Fig. 2, a plan; Figs. 3, 4, and 5, crosssections on dotted lines x a', y y, and z z, respectively, Fig. l; and Fig. 6 is a bottom view, showing the cams for releasing the chuck-jaws at intervals to allow the feed to be made.
- Fig. 7 is a detail view in perspective and section.
- A is the machine-frame, on which the various parts are mounted.
- the main shaft B turns in bearings in the frame and carries the carndrum C, by which the chuck is shifted to bring the tools successively into action.
- the chuck is carried by a spindle, D, mounted in bearings on a laterally-movable support or slide, E, which is itseltl carried by a longitudinally-movable support or slide, F, the terms lateral and longitudinal7 having reference to the axis ot' the chuck.
- the slide F is supported iu ways of the machine-frame, the slide E in ways ofthe slide F.
- a pin, G screwed into or otherwise fastened to the machine-frame, projects into a groove, g, in the bottom of the slide E, and holds the latter from lateral motion during t-he advance and return or longitudinal movements of the slide. It also prevents longitudinal movement while the lateral shifting takes place.
- the slide F is, reciprocated back and forth by means of the irregular cam c on the face ofthe drum G, through the pinf, fixed to said slide and projecting into the groove constituting the cam.
- the slide E ofcourse partakes ot' the movement of the slide F in the direction of the aXis ofthe chuck.
- the chuck-spindle D is turned by a belt running on a pulley, D', xed on the spindle. It is revolved oppositeto the direction in which chuck-spindles ordinarily run.
- the chuck may be of any ordinary or suitable construction.
- spring-jaws d formed of one split piece and held in the solid head of the chuck-spindle, and operated by wedges d', formed in one piece with the tube d2 and working between the chuck-jaws d and the head of the spindle.
- This lever is pivoted to an arm, H', rigidly attached to the slide E.
- acam-piece, It pivoted to the under side of the lever. (Shown in dotted lines, Fig. 2, and in fulllines,Fig. 6.)
- the outer end of the cam-piece plays between the pins It' h2.
- a spring, h3 tends to force this end away from the pin h'.
- a cani, h4 Below the piece 7L, and Xed thereto, is a cani, h4.
- the two shaftsKK' mounted upon the slide E, above the chuckspindle, are the two shaftsKK', capable of limited longitudinal and rotary motion.
- arms 7c Upon their front ends are arms 7c,extending down in front of the chuck on opposite sides of the axis thereof, and arranged to grasp between them,
- a latch, L pivoted at Z, bears at its front end on the pins k2, projecting from the shafts K K'. Its rear end rest-s upon the lever H, and is provided with an incline or cam surface, l', over which said lever works. In the position shown in Fig. lthe rear oflatch L is held up by the lever H and the arms of the feed-clamp are separated, as shown in full after the feed-clamp.
- the cutting-off tool I is secured to the machine-frame in any suitable way, and the turning-down tool l' is held in a socket of the tool-holder O, which is itself bolted to the machine-frame; or, if desired, the tool may be otherwise heid in position.
- r[he die or turning-down tool is carried by a spindle, P, loosely supported in a sleeve, Q, engaged by and revolving with an external sleeve, Q', to which power is communicated by a belt on a pulley keyed thereto.
- rlhe pulley is revolved in the same direction as that on the chuck-spindle, but at a higher speed.
- a spiral spring, q surrounding the die-spindle and interposed between the head p' on the rear thereof and the stationary nut q', tends to hold the two parts of the chuck 1n engagement, so that the motion of the sleeves Q Q' is communicated to the die-spindle. This is capable of a limited endwise movement, so that it can be drawn forward in the sleeve Q', thus disengaging the clutch p.
- the thread is cut upon the rod or screwstock bythe die or threading-tool revolving faster than the chuck; but when the thread is completed the die-spindle is drawn forward and the clutch p is released, and the die-spindle then continues to revolve at the same speed as the chuck until engaged and stopped by the clutch-piece t'.
- the continued revolution of the rod or screw-stock with the chuck ⁇ releases it from or unthrea-ds the die.
- the spring r yields and allows the diespindle to turn until the next notch comes opposite, when it forces the clutch-piece into the same.
- a limited endwise movement is allowed the die-spindle while held from revolving by the clutch-piece r.
- Motion is communicated to the main shaft B from the sleeve Q by means of a train of reducing spur-gearing, comprising the gear t, fixed to the sleeve, the gear t8, keyed to the main shaft, andthe intermediate gears, t,t2, t3, t4, t5, t6, and t7, the large and small gears, t and t2, t3 and t, t6 and t7, being connected so as to revolve at the same speed, and the gear t5 being an idler, which may be carried 011 an arclimb, so that -gears of different sizes may be substituted for t4 in order to change the speed.
- the system of gears is the same as described in my before-mentioned patent.
- the chuck and slide E are shifted laterally to bring the rod or screw-stock between the die or threading-tool and the cutting-off tool.
- the chuck and slides are then advanced, and while in the forward position the chuck and slide E are shifted laterally to bring the rod or stockin contact with the cutting-off tool, so as to sever the newlyformed screw.
- rlhey are then moved back again.
- rlhe chuck and slides are then backed, and the slide E is shifted laterally until the axes of the chuck and tnlningdown'tool are in line.
- An automatic screw-machine comprising, in combination, the chuck, lateral and longitudinal slides, the cams and connections or equivalent automatic mechanism for operating the same, the feed mechanism, with feed-clamp in front of said chuck, the devices fixed on said longitudinal slide for operating said feed mechanism, and the stationary tool-holder with threading and other tools mounted thereon, substantially as described.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Forging (AREA)
Description
(No Model.) 3 Sheets-Sheet:` 1.
A. JOHNSTON.
- METAL SCREW MAGHINB.
. No. 267,214. Patented Nov. 7, 1882.
fi f y Ill . c Il' ll Q M GL ",L,
n r m P* i E C:
I "je e\ 1 l QQ o MyW/WZ J g ig [n O (Nid Model.) 3 sheets-sheet 2.
A. JOHNSTON.
METAL SCREW MACHINE.
YB10267214. Patented Nov. 7,'1882.
3 Sheets-Sheet 3;
' (No Model.)
A. JQHN'STON. METAL SCREW MACHINE.
2. 00 OO 1 .l, V. 0 E N d e t n, w a P Q m ,wf////w 7, m w a 4v NA UNITED STATES PATENT OEEICE.
ALLEN JOHNSTON, OF OTTUMW, IOWTA.
METAL-SCREW MACHINE.
SPECIFICATION forming part of Letters Patent No. 267,214, dated November 7, 1882.
Application led October 28, 18H1.
To all whom it may concern Be it known that I, ALLEN JOHNSTON, of Ottumwa, in the county of Wapello and State of Iowa, have invented a new and useful Improvement in Metal-Screw Machines, which improvement is fully set forth in the following specification.
This invention relates more particularly to automatic machines for making metal or machine screws from a rod, although applicable, at least in part, to other machines; and it involves an improvement in the general ar rangement ofthe machine, in the feeding mechanism, in the screw-threading mechanism, and also in the special construction and combination of the different parts.
Heretot'ore the tools for turning down and threading the rod have been moved back and forth to cause them to act upon the rod in a revolving chuck. In the present invention this motion is imparted to the chuck. Lateral movement to bring the several tools in line with the rod or axis of' the chuck is also imparted to the chuck, the tools being held in a stationary support or supports.
Heretofore the clampv by which the rod is fed at intervals between the chuck-jaws has been placed inside or back ofthe jaws, so that the rod is pushed forward. ln the present invention the clamp is placed outside the jaws, so as to act upon the projecting portion of the rod. A friction-clamp could be used for the purpose 5 but a four-motion-feed clamp which successively grasps and advances the rod, releases it, and returns is deemed most advantageous. It constitutes itself a portieri of the invention.
It may be observed that a four-motion-feed clamp arranged in front ot' the chuck has heretofore been used in a machine for making needle-blanks from a wire, and that this combination broadly constitutes, therefore, no part of the present invention.
The screw-threading mechanism in this i11- vention operates on the principle described in Letters Patent No. 241,806, granted to me May 24, 1881, but is somewhat modited in its details, whereby greater simplicity and strength are secured.
rIhe particular construction and manner of combiningthe several parts are set forth below.
The accompanying drawings, which form a part of this specification, represent a screwmachine embodying the invention.
(No model.)
Figure 1 is a central vertical longitudinal section; Fig. 2, a plan; Figs. 3, 4, and 5, crosssections on dotted lines x a', y y, and z z, respectively, Fig. l; and Fig. 6 is a bottom view, showing the cams for releasing the chuck-jaws at intervals to allow the feed to be made. Fig. 7 is a detail view in perspective and section.
A is the machine-frame, on which the various parts are mounted. The main shaft B turns in bearings in the frame and carries the carndrum C, by which the chuck is shifted to bring the tools successively into action. The chuck is carried by a spindle, D, mounted in bearings on a laterally-movable support or slide, E, which is itseltl carried by a longitudinally-movable support or slide, F, the terms lateral and longitudinal7 having reference to the axis ot' the chuck. The slide F is supported iu ways of the machine-frame, the slide E in ways ofthe slide F. A pin, G, screwed into or otherwise fastened to the machine-frame, projects into a groove, g, in the bottom of the slide E, and holds the latter from lateral motion during t-he advance and return or longitudinal movements of the slide. It also prevents longitudinal movement while the lateral shifting takes place. The slide F is, reciprocated back and forth by means of the irregular cam c on the face ofthe drum G, through the pinf, fixed to said slide and projecting into the groove constituting the cam. The slide E ofcourse partakes ot' the movement of the slide F in the direction of the aXis ofthe chuck. 1t is shifted laterally at intervals by means of the cam c on drum C, the motion' being communicated through a lever, C', pivoted to the machineframe, and carrying at one end a pin, c2, projecting into the groove constituting the cam c', and at the other with a pin, c3, projecting into a groove, c, in the slide E. A link could be used instead of the groove-and-pin connection, it' desired. The chuck-spindle D is turned by a belt running on a pulley, D', xed on the spindle. It is revolved oppositeto the direction in which chuck-spindles ordinarily run. The chuck may be of any ordinary or suitable construction. As shown, it is composed of spring-jaws d, formed of one split piece and held in the solid head of the chuck-spindle, and operated by wedges d', formed in one piece with the tube d2 and working between the chuck-jaws d and the head of the spindle.
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Y A spring, cl3, surrounding the tube d2, presses the wedges forward and holds the chuck-jaws closed except when tube d2 is drawn back against its pressure to release the jaws and allow the rod to be fed. At the rear end of the tube d2 is a collar, dloosely surrounding the tube, and fitting within an opening in the lever H. This leveris pivoted to an arm, H', rigidly attached to the slide E. At its outer or free end is acam-piece, It, pivoted to the under side of the lever. (Shown in dotted lines, Fig. 2, and in fulllines,Fig. 6.) The outer end of the cam-piece plays between the pins It' h2. A spring, h3, tends to force this end away from the pin h'. Below the piece 7L, and Xed thereto, is a cani, h4.
Fixed to the slide F is a pin, F', with which the cam h4 works. )When the slide E, with the chuck and chuck-spindle, is moved in the direction of the cutting-off tool l, (up, Fig. 2,) the cam h4, as it moves over the pin F', is simply forced back against the pressure of the spring h3. As soon, however, as the slide E reaches the end of its movement, or shortly before, the cam is released from the pin F', and the cam-piece lt is forced by the action of the spring h3 over against the pin 7a2, so that on the return movement of the slide a new surface of the cam is in contact with the pin F, and by the action of the latter the outer end of the leveris pressed back,(to thelef't,Figs. l and 2,) withdrawing the tube d2 and wedges d and releasing the grip of the chuck-jaws upon the rod or screw-stock. the rod or screw-stock is advanced the length of a screw. y
Mounted upon the slide E, above the chuckspindle, are the two shaftsKK', capable of limited longitudinal and rotary motion. Upon their front ends are arms 7c,extending down in front of the chuck on opposite sides of the axis thereof, and arranged to grasp between them,
when closed, the rod or screw-stock projecting through the chuck. These arms constitute, therefore, the feed-clamp.
SurroundingeachshatKK'isaspiralspring, k', whichtends to turn its shaft so as to bring the lower ends ofthe arms 7c together, and thus closethe feed-clamp, and also to hold the shaft and arms in their rearmost position, (to the left in Figs. l and 2.) A latch, L, pivoted at Z, bears at its front end on the pins k2, projecting from the shafts K K'. Its rear end rest-s upon the lever H, and is provided with an incline or cam surface, l', over which said lever works. In the position shown in Fig. lthe rear oflatch L is held up by the lever H and the arms of the feed-clamp are separated, as shown in full after the feed-clamp.
lVhile the jaws are free the feed-clamp and the rod or screw-stock is effected by the action of a cam, M, tixed to the slide F, upon abentlever,N, pivoted on the slide E. The upright arm of this lever is forked, so as to straddle the chuck-spindle, and bears against the rear end ofthe shafts K K'. The horizontal arm is provided with a set-screw,n, which bears upon the cam M, and by the adjustment of which the forward movement of the shafts and feed-cam can be regulated. The cam M operates the lever N after lthe feedclamp has closed. The rod or screw-stock is therefore advanced during the return (down, Fig. 2) movement of the slide E and chuck. The feed is completed before the end of this movement, when the cam h4 is released from the pin F', and the lever H and tube d2 being forced forward by the spring d3 and the rear of latch L raised, the arms of the feed-clamp are separated and release the rod or screw-stock, and the chuck-jaws are forced ltogether and grasp it. rI he chuck-jaws being rotary, while the feed-clamp is not, they are made to open a short time before and to close a short time During the movement of' the slide E and chuck toward the cuttingolf tool the set-screw u in lever N moves down the cam M, and the springs 7o' return the feed-clamp to the position shown.without effect upon the rod or screw-stock. The cutting-off tool I is secured to the machine-frame in any suitable way, and the turning-down tool l' is held in a socket of the tool-holder O, which is itself bolted to the machine-frame; or, if desired, the tool may be otherwise heid in position. r[he die or turning-down tool is carried by a spindle, P, loosely supported in a sleeve, Q, engaged by and revolving with an external sleeve, Q', to which power is communicated by a belt on a pulley keyed thereto. rlhe pulley is revolved in the same direction as that on the chuck-spindle, but at a higher speed.
Between the die-spindle P and the sleeve Q is a clutclnp, one part being carried by the dic-spindle and the other by the sleeve. A spiral spring, q, surrounding the die-spindle and interposed between the head p' on the rear thereof and the stationary nut q', tends to hold the two parts of the chuck 1n engagement, so that the motion of the sleeves Q Q' is communicated to the die-spindle. This is capable of a limited endwise movement, so that it can be drawn forward in the sleeve Q', thus disengaging the clutch p. When the clutchp isjust disengaged the die-spindle is left free to revolve; but when said spindleis drawn still further forward it is engaged by a stopclutch, which holds it stationary. A clutchpiecc, r, is fitted in a recess in the stationary nut q', togetherwith a spring, r', interposed between the clutch-piece and the end of the recess, so that it tends to force the latter outward, (to the right, Fig. 1.) The head p', at the rear of the spindle, is provided with a series of notches in its rim, and when the diespindie is drawn forward one of these notches ICO IlO
"chuck and rod are then advanced by the cam is engaged bythe clutch-piece @andthe spinl dle is held stationary.
The thread is cut upon the rod or screwstock bythe die or threading-tool revolving faster than the chuck; but when the thread is completed the die-spindle is drawn forward and the clutch p is released, and the die-spindle then continues to revolve at the same speed as the chuck until engaged and stopped by the clutch-piece t'. The continued revolution of the rod or screw-stock with the chuck` releases it from or unthrea-ds the die. Should the notch in head p at the rear ot' the diespindle be not fairly engaged by the clutchpiece r, the spring r yields and allows the diespindle to turn until the next notch comes opposite, when it forces the clutch-piece into the same. A limited endwise movement is allowed the die-spindle while held from revolving by the clutch-piece r.
Motion is communicated to the main shaft B from the sleeve Q by means of a train of reducing spur-gearing, comprising the gear t, fixed to the sleeve, the gear t8, keyed to the main shaft, andthe intermediate gears, t,t2, t3, t4, t5, t6, and t7, the large and small gears, t and t2, t3 and t, t6 and t7, being connected so as to revolve at the same speed, and the gear t5 being an idler, which may be carried 011 an arclimb, so that -gears of different sizes may be substituted for t4 in order to change the speed. The system of gears is the same as described in my before-mentioned patent.
In working the following operations take place: After the rod or screw-stock has been inserted through the tube d2, out between the chuck-jaws d, with a sufcient length projecting, and the chuck with said rod or screwstock has been brought opposite the turningdown tool, with the axes in line, the slides E F, with the chuck, are advanced by the action of cam c, andthe tool being brought into action reduces the rod or screw-stock to the desired length. rlhe slides E F and the chuck are then brought back, and the slide E, with the chuck, is shifted by the action of the cam c laterally, so as to bring the axes of the ch uck and of the die or threading-tool in line. The
c, and when the desired length of thread has been cut they are drawn sharplylli'ack. The newly-cut thread being held in the die or threading-tool, the latter and the die-spindle follow the chuck. The clutch p is at once disengaged, the clutch-piece r is engaged, and the rod or screw-stock is released from the die or threading-tool by the conjoint action of its own revolution and backward movement, and the tension of the spring q serving to withdraw the die or threading-tool. When the thread is released the spring q at once disengages the die-spindle from the clutch-piece r, bringing the two partsof the clutchpintocontact. After the chuck and slides have retreated the required distance the chuck and slide E are shifted laterally to bring the rod or screw-stock between the die or threading-tool and the cutting-off tool. The chuck and slides are then advanced, and while in the forward position the chuck and slide E are shifted laterally to bring the rod or stockin contact with the cutting-off tool, so as to sever the newlyformed screw. rlhey are then moved back again. rlhe chuck and slides are then backed, and the slide E is shifted laterally until the axes of the chuck and tnlningdown'tool are in line. It is during thislateral movement that the chuck-jaws are released by the action of the pin F', cam h4, and lever H, that the rod or screw-stock is grasped by arms It of the feedclamp on the release of thelatch L through the movement ot' lever H, and that the feed-clamp and rod or screw-stock are fed forward by the cam4 M and lever N a distance equal to a screws length.
The operations before described are repeated indefinitely, fresh rods or screw-stocks being supplied as required.
Various modifications may be made in the details of the machine without. departing from the spirit of this invention, and portions thereof may be used without the others. Instead of having' separate belts on the chuck-spindle and sleeve of the die-spindle, they could be connected by toothed gearing, as in the manner shown in my application for Letters Patent for screw-machine, No. 38,250, tiled July 21, 1881.
Other means than that shown could be used for tapping or cutting the thread-such, for example, as the reversing-gear ordinarily employed--or mechanism for running the die faster than the chuck in unthreading. A lengthgage could be used instead of the improved feeding mechanism described, or any of the feeding' devices before known could be so used-as, for example, that shown in my application t'or patent,No. 38,251, filed July 21,1881. So, likewise, the feeding mechanism herein described could be used in other machines, the operating devices beingsuitably modilied when required. The longitudinally-moving chuck could be combined with a laterally-moving tool-holder, or with a stationary tool-holder when only a die and cutting-ott' tool are to be used.
Instead of using aseparate cam on the camdrum for shifting the chuck laterally, a cam such as shown in my application for patent, No.19,327, tiled October' 22, 1580, could be used.
The machine shown is entirely' automatic; but hand-machines embodying the invention, at least in part, could be made. For example, using the cam for producing lateral movements described in my last-named application, the slide F could be rcciprocated by a lever with handle-cam-drum, main shaft, and accessory parts being dispensed with. So, also, machines could be made to operate on blanks, or to make woodscrews embodying more or less of the invention. Instead of having the lateral move- IIO IZO
ment of the chuck and its support in right lines, it could be made in a short arc or curved path.
4 y acacia Having now fully described my said invenl chuck-spindle, the pulley or its equivalent for revolving said chuck and spindle, the means for releasing at intervals the bite of the chuckjaivs and for feeding a long rod or screw-stock through said spindle, and the lateral and longitudinal slides or reciprocating supports, the one carried by the machine-frame, and the other, which forms the immediate support for the chuck, mounted in Ways of the first slide, substantially as described.
2. The combination of the chuck adapted to receive avrod or long screw-stock, the longitudinal slide carrying said chuck, the means for relieving and restoring the pressure of the chuck-jaws, and the means for feeding the rod or screw-stock when the pressure of the chuckjaws is relieved, said means operating independently of the `longitudinal movement of said chuck, substantially as described.
3. The combination, with the milling and threading tools, of the chuck and the longitudinal and lateral slides or reciprocating supports, the one carrying the chuck and heilig mounted in the Ways of the other, substantially as described.
4. The combination, with the milling and threading tools, the chuck, and the laterally and longitudinally movable slides or supports, the one carrying the chuck and being itself carried by and movable in Ways of the other, of the cams and connections or equivalent automatic mechanism for shifting said slides or supports back and forth, substantially as described.
5. The combination of the chuck adapted to receive a long rod or screw-stock, the lateral and longitudinal slides or reciprocating supports, the one carrying the chuck and being itself carried by and movable in Ways of the other, the feeder, the series of cutting-tools, including a cutting-off tool, and the cams and connections or equivalent automatic mechanism for reciprocating said slides or supports and for operating said feeder, substantially as described. Y
6. The combination, with the chuck, the milling-tool, the threading-tool, and the cutting-off tool, of the feed-clamp and its operating means, said clamp being arranged between the front of the chuck and the said milling and threading tools and ont of the way of said cutting-oit' tool, substantially as described.
7. The combination, With the chuck and laterally-movable support therefor, of the feedclamp, carried also by said support and arranged in front of the chuck, substantially as described.
8. The combination, with the chuck and the means for releasing at intervals the bite of the chuck-jaws ofthe feed-clamp, arranged in front of said chuck, the springs for'closing and for advancing the clamp, and thecams and connections for opening and for returning the same, substantially as described.
9. The combination, with the chuck and laterally-moving support therefor, of the four-motion-feed clamp and cams and connections operated by the lateral movement of said chuck and its support to close the arms of said clamp, to advance the same, to open them, and return them, the operations being performed successively and in the order named, substantially as described.
l0. The arms of the feed-clamp and their supporting-shafts, capable of limited longitudinal and rotary motions, in combination With the means for imparting positively such motions thereto in one direction, and the springs for returning the same, substantially as described.
11. The combination of the chuck and chuckspindle, the arms of the feed-clamp, the shafts extending lengthwise of said spindle and rarrying the said arms at their outer ends, and being capable of limited longitudinal and rotary motion,the springs surrounding the said shafts, the latch for governing their rotary motion, the lever for imparting their longitudinal motion, and operating-cams and connections, substantially as described.
12. The combination of the chuck, the support therefor, the cams and connections or equivalent automatic mechanism for imparting lateral and longitudinal motion to the chuck and its support, the die or threading-tool, and the cutting-off tool, both mounted on the stationary support or supports, substantially as described.
13. The combination of the chuck, the movable support therefor, eam-operated mechanism for shifting said chuck and support, the die or threading-tool comprising the die-spindle with the inclosing sleeve, the belt-pulley mounted on said sleeve, and gearing for communicating motion from said pulley to said cam mechanism, substantially as described.
14.. An automatic screw-machine comprising, in combination, the chuck, lateral and longitudinal slides, the cams and connections or equivalent automatic mechanism for operating the same, the feed mechanism, with feed-clamp in front of said chuck, the devices fixed on said longitudinal slide for operating said feed mechanism, and the stationary tool-holder with threading and other tools mounted thereon, substantially as described. f
In testimony whereof I have signed this specification in the presence oftwo subscribing witnesses.
ALLEN JOHNSTON.
Witnesses:
A. G. HARRoW, J. T. HAoKWoR'rH.
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