US1254176A - Automatic thread-rolling machine. - Google Patents

Automatic thread-rolling machine. Download PDF

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Publication number
US1254176A
US1254176A US13908416A US13908416A US1254176A US 1254176 A US1254176 A US 1254176A US 13908416 A US13908416 A US 13908416A US 13908416 A US13908416 A US 13908416A US 1254176 A US1254176 A US 1254176A
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chute
blank
blanks
die
rest
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US13908416A
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Lars Wm Thorsell
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21HMAKING PARTICULAR METAL OBJECTS BY ROLLING, e.g. SCREWS, WHEELS, RINGS, BARRELS, BALLS
    • B21H3/00Making helical bodies or bodies having parts of helical shape
    • B21H3/02Making helical bodies or bodies having parts of helical shape external screw-threads ; Making dies for thread rolling
    • B21H3/06Making by means of profiled members other than rolls, e.g. reciprocating flat dies or jaws, moved longitudinally or curvilinearly with respect to each other

Definitions

  • w 1- Aij 33 L. W. THORSELL. AUTOMAIIC THREAD ROLLING MACHINE.
  • ATTORNEYS parativel simple machine of ran sTATE% PATE T FWQ P LABS WM. THOBSELL, F WATEBBURY, GONINECTICUL.
  • Figure 1 is a side elevation of a machine embodying my invention, with a portion of the supporting base cut away;
  • Fig. a plan view of the same
  • FIG. 3 is an elevation of the other side of the machine, partly in section on the line 3-3 in Fig. 2 and with one side of the hopper removed;
  • Fig. 3 is a vertical section taken substantially on the line 3 3 of Fig. 3;
  • Fig. 1- is an enlarged plan view of the reciprocating dies and. their actuating mechanisms
  • Figs. 5 and 6 are fragmentary plan views of the same'withthe dies in different operative positions
  • Figs. 7 and 8 are sectional detail views taken substantially on the lines 7-7 and 8-8 of Fig. 4, respectively;
  • Fig. 9 is a sectional detail View taken substantially on the line 9-9 of Fig. 6;
  • Figs. 10, 11 and 12 are fragmentary side elevations of the chute from the hopper-and the screw-blank retaining and releasing mechanism, with operative parts of the latter in different positions, as hereinafter explained; i
  • Fig. 13 is a similar view with the retain-. ing and releaslng mechanism removed;
  • Fig. 1% is an end elevation of the same
  • Figs. 15 and 16 are sections taken substantially on the lines 1515 and the line 16 of Fig. 13, respectively, and
  • Fig. 17 is a plan View of the retaining and V releasing mechanism detached.
  • a suitable frame which includes the vertical standard 21 and the horizontal arm A hopper 2%, which tapers in the usual manner from a relatively large open top to a relatively small open bottom, but preferably having at least one vertical side or wall, as shown in Figs. 2 and 3*, has one side thereof pivoted at 23 to the horizontal arm 22 of the supporting frame.
  • This hopper 2a is normally secured in an upright positionv by means of a bracket 25 thereon detachably secured to a bracket 26 on the arm 22 by means of a-bolt 27, the bracket 25 preferably including a, strength ening lug 28..
  • the lower mouth of the hopper 2a is of rectangular configuration, and is closed by a bar 29 which is vertically slidable in suitable ways on the arm 22 of the frame.
  • This bar 29 is adapted to be vertically reciprocated by means of a connecting-rod 30 pivoted to the lower end thereof and to the wheel 31, the latter-being driven in a manner which will be hereinafter described.
  • the vertical side wall 82 (Fig.
  • this chute is attached to the interior face of the vertical wall 32 of the hopper 24 by means of the plate 38, bolted to said wall and having screws 39 which pass throughboth platesof the chute, and screws 40 which pass through the plate 36'only with the ends thereof abut ting against the plate 37, whereby the distance between these plates may be adjustably varied for screw-blank-shanks of different diameters.
  • this chute is so shaped and located as to register with and fit against the lower end of the'bar 33, of which it thus substantially forms a continuation, as best shown in Fig. 3, whereby a blank will pass readily from said bar 33 to the chute and continue down the latter.
  • each thereof one-of the arms of a bell-crank lever pivoted at 43, the other arms 44 and 45 thereof being adapted to be actuated by the cams 46 and 47 on the shaft 48, whereby the arms 41. and 42 will be alternately oscillated ing around a pulley 49' on said shaft and around the pulley 50, which is driven in a manner which will be hereinafter described.
  • the main driving shaft 52 of the machine is journaled in any suitable manner in bearings in the frame of the latter, and is driven by means of a pulley 53 mounted thereon in Fig. 4, is a'double crank-shaft provided with the alternately-acting pitmen or connecting-rods 57 and 58.
  • the headv 60 of the pitman or connecting-rod 57 is pivoted to a die-block 59 which. is horizontally slidable in suitable ways provided therefor in the.
  • the plate 64 On the top face of the die-block 59, is transverselyslidable in suitableways the plate 64 which has adjustably mounted thereon, by means of the retaining screw 65, the relatively smaller plate 66 at the end of which is mounted the finger 67.
  • the small jaws 104, 105 At the lower end of the chute which comprises the the plates 36 and 37,'are mounted the small jaws 104, 105 (presently to be described) which form arelatively short platform or jaw rest 68 upon which the screw-blanks are delivered from the chute. 'The parts which carry the finger 67 are so mounted and adjusted that said finger 67 is located in a horizontal plane below. the plane of the jaw rest 68, whereby said finger may engage.
  • the plate 6t is reciprocated by means of an arm 69 which has a nose 7O projecting into a recess 71 in said plate, said arm being pivoted at 72 on the ,top face of the die-block 59, whereby oscillation of said arm causes transverse reciprocation of said plate 6th.
  • Properly-timed oscillation of the arm 69, to effect intermittent reciprocation of the plate 66, may be secured through the usual cam-and-roller instrumentality in many different ways. I prefer, however, to provide a stud 125 upon which is journaled the roller 7 3, and immediately above this roller 7 3 the supplemental roller 126 the lower face 127 of which is beveled and which is yieldingly pressed against the roller 73 by means of a spring 128 in compression between the upper face of the roller126 and the wasner 129 secured to the upper end of the stud 125 by means of the screw 130.
  • the upper face of the horizontal plate of the bracket 61 is recessed for the reception of a plate 75, which is secured in place by means of plate 131 through which pass screws 132 which are threaded into the plate 61 and thereby rigidly secure in place both the plate 131 and the plate 7 5, the latter being made laterally adjustable by means of adjusting screws 133 passing through a vertical wing 161 of said plate 61 and abutting against the vertical wing 135 of said plate 75.
  • the operative edge of the plate 7 5 projects slightly beyond the contiguous edges of the plates 61 and 131, and acts against the roller 73 to hold the finger 67 in the position indicated in Fig. 1.
  • the die-block 59 is about to start upon the return stroke of its reciprocation, and when the end of this edge of the plate 7 5 is reached, the roller 3 engages the cam 74 (best shown in Eig. 41), thereby oscillating the arm 69 to withdraw the finger 67 from the path of movement of the shanks of the screw-blanks 88.
  • the plate 121 is provided with a cam 136 which projects slightly beyond the face of the cam 74- and which terminates in a curved seat or step 137 which is beveled, as best shown in Fig.
  • the die-block 59 now starts upon its forward stroke of reciprocation, with the roller 126 held in its raised position and the stud 12-5 sliding againstthe cam surface 136,
  • a plate 76 transversely slidable in suitable ways provided in said block and reciprocated by means of the oscillating arm 7 8, the nose 77 of which projects into a recess 79 in said plate 76, and the other end of which is provided with the roller 80 movement of which is controlled by the cam surface 81 provided on theplate 82 which is adjustably mounted on the bracket 63, the roller 80 being yieldingly held against thecam surface of the plate 82 by means of a spring 81.
  • the pitman or connecting rod 58 is in its most retracted position, with the pitinan or connecting-rod 57 in what may be termed its most advanced position.
  • the die-block 62 therefore, is in its most retracted position, and has carried therewith the plate 76 upon which is mounted the plate 85 the end of which provides the finger 87.
  • the cam surface 81 has acted upon the roller 80 to reciprocate the plate 76 and withdraw the finger 87 from the path of movement of the shank of the foremost of the screw-blanks 88, which are shown at the lower end of the chute.
  • this foremost blank 88 is shown as about to be delivered to the jaw est 68, and in Fig.
  • the dies 89 and 90 may be mounted in the die-blocks 59 and 62 in any desired manner. but at least one thereof should be adjustably secured in order to provide for'operations upon blanks having shanks of different diameters.
  • the die 90 provided with beveled ends and set into a correspondingly shaped recess which forms a seat or pocket therefor in the die-block 62 wherein it is retained by means of the plate 138 projecting over the same, this plate being .secured to the upper face of the die-block by means of the bolt 139.
  • the die 89 instead of being set into the dieblock, is correspondingly set into a carrier 1 10 which is slidably mounted in suitable ways in the upper face of the die-block 59, the die being retained in said carrier by means of theplate 1 11 projecting over said dieand secured to the carrier by means of a screw-bolt 1 12.
  • a screw-bolt 143 is threaded into a correspondingly threaded aperture in the boss 14 1 on the carrier 140 and acts against the washer 145 to draw said carrier against the spacing screws 14:6 threaded into the die-block and providing adjustable stops against which the carrier is adapted to abut. In this manner I am enabled to adjust the position of the die 89 with reference to the die 90 to vary the distance therebetween and thereby readily adapt this mechanism to blanks having shanks of a different diameter.
  • the operative faces of these dies co-act in the usual manner, through engagement of the shank of the blank as the latter passes therebetween during movement of said dies in opposite directions, to roll threads in said shank or otherwise operate upon the same.
  • the die 89 in the die-block 59 is located in close proximity to the end of the finger 67, 7
  • the die 89 is in position (as shown in Fig. 6) to engage the shank of the blank and Complete the stable support thereof prior to positive engagement of said shank between the two dies 89 and 90.
  • the die-block 59 has now been advanced, under the return action of the pitman or connectingrod 57',- carrying 1 therewith the finger 67 and the foremost of the blanks 88, the latter being supported between the die 89, the finger 67 and the edge of the plate 91 on the die-block 62.
  • the die-block 62 is being retracted under movement of the pitman or connect-V ing-rod 58, and as it passes the now advanced blank 88, it will have no effect thereupon, due to the fact that this blank is not in engagement between the two dies.
  • the shank of this blank will be engaged between the two 013 eratire faces of the dies and roll along therebetween, as shown in. Fig. 5, to form screw threads on the shanks thereof or otherwise operate thereupon, and at the same" time ad- Vance the blank along the face of the die 90.
  • the blank reaches the end of the die- 90, it merely drops off into the bed of the machine, where a suitable receptacle 1s 'provided for the reception of the finished articles or where the upper end ofa suitable chute may be located to direct their final disposition in'such manner as may be desired.
  • I In the end of the arm 92 I is adjustably mounted a preferablyinclined I finger 96, the lower end thereof being provided with a tapered or beveled edge normally so located and disposed as to engage the head of the foremost blank in the chute and prevent delivery of the same upon the jaw rest 68.
  • the finger 96 is normally re 1 tained in its most depressed position, in which position it is adapted to engage the head of the foremost blank, by means of a spring 97 mounted on the plate 95.
  • the top face of the arm 92 is of irregular outline, and that the lower face of the contimious end of the late 95 is similarly of irregular outline, these two surfaces forming cam faces by means of which will be apparent that as the die-block 62 is reciprocated, carrying therewith the plate 102, at the end of the forward stroke of reciprocation the lug 101 will engage the end of the screw-pin 100 and slightly advance the bar 94: carrying therewith the finger 96. As this finger is advanced, the cam faces on the upper side of the arm 92 and the lower side of the plate 95 permit depression of the arm 92 under action of the spring 97 to positively engage through the finger'96 the head of the next succeeding blank as the foremost of said blanks is being further advanced, as shown in Fig.
  • Figs. 13 to 16, inclusive I have shown the slotted blank-receiving jaw rest 68 at the lower end of the chute which consists of jaws 104 and 105, the former being stationary, and the latter being formed at the end of a strip or bar 106, pivoted at 107 to the bar 108.
  • a teat 109 On the operative face of the jaw 105, I have shown a teat 109, projecting into the path of movement of the shanks of the screw-blanks which pass between said jaws.
  • I provide a spring 110 in compression between the end of said lever 106 and the bar 108, whereby said jaws are yieldingly pressed in the direction of each other.
  • the teat 109 will engage the foremost of the screwblanks, as the same passes out of the chute, and retain it upon the jaw rest 68 in position to be engaged by the finger 87, while the remaining blanks in the chute are so disposed as not to be engaged by said finger.
  • This foremost blank being yieldingly held by the teat 109, it will be apparent that the positive movement of the finger 87 in a forward direction may be with such force as to readily overcome the action of the spring 110, and force this foremost blank to position for engagement with the finger 67 and the die 89, in the manner which has been heretofore described.
  • the integral grooved bar 33 is employed at the upper end of the chute, forming a separate continuation or prolongation of the latter, instead of increasing the length of the plates 36 and 37 which form the chute proper and thus carry the chute itself through the hopper with the end thereof located above the reciprocating bar 29, on account of the fact that when it becomes necessary to adjust the lateral dimension of the chute to accommodate blanks having shanks of greater diameter, the upper end of the plate 36 of the chute might necessarily project out of the recess in the hopper wall 32, provided to receive the bar 33, and thus interfere with reciprocation of the bar 29-or, if the width of the chute were reduced, in order to properly dimension the same for blank-shanks of relatively small diameter, there would necessarily be a gap between the bar 29 when in its raised position and the bar 33, or between said bar 33 and the side wall 32 of the hopper, either of which conditions would be objectionable on account of the fact that a much greater proportion of the blanks delivered by the bar 29 to the upper end of the chute would fail to naturally position themselves with
  • the chute proper by slightly shortening the chute proper, and providing a separate extension thereof in the form of a grooved bar, the latter, being comparatively short and light in weight, may be readily removed when it is desired to vary the width of the chute, and another bar substituted therefor, the groove in the latter being of a width which corresponds to the width of the groove in the chute proper as adjusted. Therefore, the width of a number of selective bars 33 may be made uniform, the only variations being the widths of the grooves therein, thus permitting of adjustable variation in the width of the groove of the chute within the range of the standard dimensions 0r gages of ordinary screw-blanks.
  • the disk-wheel 31 which through the medium of the connecting-rod 30 reciprocates the bar 29, is driven from the crankshaft 56 by means of a belt 110 passing around the wheel-crank 111 on said shaft, which is grooved to form a pulley, and around said wheel 31.
  • a belt-tightener for the belt 110 the same comprising the idler pulley 112 controlled. in the usual manner from the hand-wheel 113.
  • This wheel 50 is mounted upon a short shaft 114% which is journaled in hearings in a plate or bracket 115 which is adjustably mounted upon the horizontal arm 22 of'the frame of the machine, whereby may be properly tensioned, in acommon. and well-known manner, not only the belt 149 but also the belt 116 which passes around thepulley 117 on the driving shaft 532 and around the pulley 118 on the shaft 114 to drive the pulley '50.
  • the bearing block 119 for the shaft 56 atthe end of the arm 120 which includes the-heavy flange 121 and which is secured in said arm 120..by'means of the screws 122, is made of such diameter that after withdrawal of the same, and. detachment of the divided heads 1123and 12 1 of the connecting-rods 57 and 58- from the Wrist-pins, the crank-shaft 56 in its entirety may be withdrawn through the z arm 120.
  • a reciprocating die adapted to engage said blank and operate upon thersame in transit
  • the combination with a chute and means for deliveringv blanks thereto for support I transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldinglv support the foremost blank, means for checking movement of the remaining blanks in said chute While the foremost thereof is being delivered to and retained on said jaw rest, a pair of oppositely reciprocating dieblocks carrying dies adapted to engage said blank and operate upon the same in transit, and means carried by said die-blocks for ad vancing each blank in turn from said jaw rest to engagement by said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost blank, said blanks being supported in said chute and on said jaw rest through the beans thereof, means for checking movement of the remaining blanks in said chute while the foremost thereof is being delivered to and retained upon said jaw rest, a reciprocating die adapted to engage the shank of said blank and operate upon the same in transit, and means for advancing each blank in turn from said. jaw rest to engagement by said die.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldinglv support the foremost blank, said blanks being supported in said chute and on said jaw rest through the heads thereof, a pair of oppositely reciprocating dies adapted to engage the shank of said blank and operate upon the same in transit, an 1 means for successively advancing said blanks from said jaw rest to engagement by said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission. therethrough in. processiona]. order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and, yieldingly support the foremost blank. said blanks being supported in said chute and said jaw rest through the heads thereof, means for checking movement of the remaining blanks in said chute while said foremost blank is being delivered to and retained upon jaw rest, a pair of re ciprocating dies adapted to engage the shank of said blank and operate upon the sa me in transit, and means for advancing each blank in turn from said jaw rest to engagement by said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yield inglv support the foremost blank, said blanks being supported in said chute and on said jaw rest through the heads thereof, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage the shank of said foremost blank and ope ate upon the same in transit, and means carried by said die-blocks for successively advancing said blanks from said jaw rest to engagement by said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest at'the foot of said chute adapted to receive the foremost blank and support the sai'ne through thehead thereof, a reciprohcating die adapted to engage said blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on said rest and advance the same from said rest to engagement by the other finger and said die.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive the foremost blank and yieldingly support the same through the head thereof, means for checking movement of the remaining blanks while said foremost blank is beingdelivered to and supported upon said jaw rest, a reciprocating die adapted to engage said foremost blank and operate upon the shank thereof in transit, and a reciprocating finger adapted to engage the blank on said jaw rest and advance the same from said jaw rest to engagement by said die.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest 7 at the foot of sald chute adapted to receive the foremost blank and support the same through the head thereof, means for checking movement of the remaining blanks while said foremost blank is being delivered to and supported upon said rest, a reciprocat ing die adapted to engage said foremost blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on the rest and advance the same from said rest to engagement by the other finger and said die.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest at the foot of said chute adapted to receive and support the foremost blank, a pair of oppositely reciprocating dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on the rest and advance the same from saidrest to engagement by the other linger and oneof said dies, and said said blank to engagement between said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, .of a rest at the foot of said chute adapted to receive and support the foremost blank.
  • a pair of oppositely reciprocating die-blocks carrying dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a finger carried by each of said die-blocks reciprocable therewith and reciprocating transversely thereof,'on.e of said fingers being adapted to engage each blank on said rest in turn and advance the same from said rest to engagement by the, otherfinger and one of said dies, and said other finger further advancing said blank to engagement between said dies.
  • the combination with a chute and means for delivering headed blanks thereto for transmission there-through in processional order and similar disposition, of a rest at the foot of said chute adapted to receive and supportthe foremost blank, means for checking movement of the remaining blanks while the foremost thereof is being delivered to and supported upon said rest, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a finger carried by each of said die-blocks reciprocable therewith and reciprocating transversely thereof, one of said fingers being adapted to engage each blank on said rest in turn and advance the same from said rest to engagetherethrough in proces-.
  • the combination with a slotted chute and means for delivering headed blanks thereto, of a jaw rest comprising a pair of jaws having opposed operative faces in alinclnent with the slot of the chute, one of said jaws being pivoted and yieldingly pressed toward the other, and said pivoted check the movement of the blanks in the chute, a pair of oppositely reciprocating die blocks carrying dies adapted to engage the foremost blank, andfingers carried by said die blocks, one of which acts to advance each blank from the jaw rest to engagement by the other finger and one of the dies, the other finger further advancing the blank to engagemeut between the dies; 7
  • the combination with a slotted chute and means for delivering headed blanks thereto, of a jaw rest comprising a pair of rying dies adapted to engage the foremost blank, fingers carried by the die blocks and ZICUHQSUCCOSSiW-BIY to advance the blanks from the jaw rest to engagementby the dies aw being provided with a teat adapted to and auxiliary means cooperating with the" to'the jaw rest.

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Description

L. W. THORSELL.
AUTOMATIC THREAD ROLUNG MACHINE.
APPLICATION FILED DEC. 2?. 1916.
1,25%,176, Patented Jan. 22, 1918.
7SHEETSSHEET 1.
b K %Z Inventor:
L. W. THORSELL. AUTOMATIC THREAD ROLLING MACHINE. APPLICATION FILED 050.27. 1916.
1,25%, 1 76. Patented Jan. 22, 1918.
ISHEETS-SHEET 2- L. W. THORSELL. AUTOMATIC THREAD ROLLING MACHINE. APPLICATION FILED 050.27. I916.
Patented Jan. 22, 1918.
7 SHEETS-SHEET 3.
g, invemor:
Huf
L. W. THORSELL. AUTOMATIC THREAD ROLLING MACHINE.
APPLICATION FILED DEC. 2], I916. 1,254 1769 Patented Jan. 22,1918.
' 7 SHEETS-SHEET 4.
w 1-= Aij 33 L. W. THORSELL. AUTOMAIIC THREAD ROLLING MACHINE.
APPLICATION FILED DEC.27 1916- 1 ,25%,1?6, Patented Jan. 22,1918.
ISHEETS-SHEET 5.
,L. w. moasm. AUTOMATIC THREAD ROLLING MACHINE.
- v APPLICATION FILED DEC.27; I915. 1,54,176. Patented Jan. 22,1918.
7 SHEETS-SHEET 6.
L. W. THORSELL.
AUTOMATIC THREAD ROLLINGMACHINE. APPLICATION FILED No.2]. 1916.
1,25%,W6. Patented Jan. 22,1918.
1 SHEETSSHE ET 1.
WiTNESS @WYM.
ATTORNEYS parativel simple machine of ran sTATE% PATE T FWQ P LABS WM. THOBSELL, F WATEBBURY, GONINECTICUL.
AUTOMATIC THREAD-ROLLING MACHINE.
Specification of Letters Patent.
Patented Jan. 22, 1918.
Application filed. December 27, 1916. Serial No. 139,084.
)articular reference to machines for rollin a thread upon the headed blanks in the manufacture of machine-screws.' The more important objects of my invention are, among other things, the provision of a comrelatively large capacity, one which is more nearly completely automatic, one which is exceed ingly compact and therefore occupies comparatively little'fioor space, and one which is strong and durable,having few parts to get out of order andsuch parts easily accessible for repair or replacement.
My invention will be more readily under stood by reference to the accompanying drawings, forming part of this specification, in which-.
Figure 1 is a side elevation of a machine embodying my invention, with a portion of the supporting base cut away;
Fig. a plan view of the same;
3 is an elevation of the other side of the machine, partly in section on the line 3-3 in Fig. 2 and with one side of the hopper removed;
Fig. 3 is a vertical section taken substantially on the line 3 3 of Fig. 3;
, Fig. 1- is an enlarged plan view of the reciprocating dies and. their actuating mechanisms;
Figs. 5 and 6 are fragmentary plan views of the same'withthe dies in different operative positions;
Figs. 7 and 8 are sectional detail views taken substantially on the lines 7-7 and 8-8 of Fig. 4, respectively;
Fig. 9 is a sectional detail View taken substantially on the line 9-9 of Fig. 6;
Figs. 10, 11 and 12 are fragmentary side elevations of the chute from the hopper-and the screw-blank retaining and releasing mechanism, with operative parts of the latter in different positions, as hereinafter explained; i
Fig. 13 is a similar view with the retain-. ing and releaslng mechanism removed;
Fig. 1% is an end elevation of the same;
W. THonsELL,
Figs. 15 and 16 are sections taken substantially on the lines 1515 and the line 16 of Fig. 13, respectively, and
Fig. 17 is a plan View of the retaining and V releasing mechanism detached.
Referring now to the drawlngs 11'1 detail, I have shown all of the operative parts of my machine mounted upon a suitable frame which includes the vertical standard 21 and the horizontal arm A hopper 2%, which tapers in the usual manner from a relatively large open top to a relatively small open bottom, but preferably having at least one vertical side or wall, as shown in Figs. 2 and 3*, has one side thereof pivoted at 23 to the horizontal arm 22 of the supporting frame. This hopper 2a is normally secured in an upright positionv by means of a bracket 25 thereon detachably secured to a bracket 26 on the arm 22 by means of a-bolt 27, the bracket 25 preferably including a, strength ening lug 28.. It will thus be seen that upon removal of th'e'bolt 27 the hopper 24 may be tilted to the position shown by the dotted lines in Fig. 1. Thistilting of the hopper has nothing to do with the operation of the machine, but does provide for the withdrawal of certain parts to afford ready access to other parts in a manner which will be hereinafter described. In fact, the hopper 2%, with other parts about to be described attached thereto, may be entirely removed by removing both the bolt 27 and the pivot bolt 23.
The lower mouth of the hopper 2a is of rectangular configuration, and is closed by a bar 29 which is vertically slidable in suitable ways on the arm 22 of the frame. This bar 29 is adapted to be vertically reciprocated by means of a connecting-rod 30 pivoted to the lower end thereof and to the wheel 31, the latter-being driven in a manner which will be hereinafter described. The vertical side wall 82 (Fig. 3) of the hopper is pro-- vided with an off-set portion for the recepion of the bar 33, which is provided with the relatively deep groove 34 in its upper face so climensloned as to receive the shank of a screw-blank to be threaded, the blank being supported through itshead which is" engaged by the top face of the bar, and which is given suiiicient inclination (as best.
to cause the blanks to' shown in Fig. 3) slide downthe bar under action ofgravity, in single file',;guided by the groove 34: in
which the screw-blank shanks travel. It wil ing downwardly in direction of the side wall 32 of the hopper. The screw-blanks being dumped indiscriminately into this hopper,
it will be apparent that as the bar 29 is.
reciprocated in an upward direction the beveled face 35 thereof will engage a certain number of the screw-blanks, carrying the same upwardly until the upper face of the bar 33 is reached or passed, when said blanks will be discharged upon the upper face of said bar 33 and the shanks of a large proportion thereof, at least, fall into the groove 34, under which conditions the blanks are in position to be properly directed downwardly along said bar, as suggested, for disposition in a manner which will be hereinafter described. g
Adiustably secured to the side wall of the hopper 24, is an inclined chute which comprises the plate 36 and its opposite counterpart 37 secured at a distance therefrom which approximates the width of the groove 34 in the'bar 33. I prefer toattach this chute to the interior face of the vertical wall 32 of the hopper 24 by means of the plate 38, bolted to said wall and having screws 39 which pass throughboth platesof the chute, and screws 40 which pass through the plate 36'only with the ends thereof abut ting against the plate 37, whereby the distance between these plates may be adjustably varied for screw-blank-shanks of different diameters. r
The upper end of this chute is so shaped and located as to register with and fit against the lower end of the'bar 33, of which it thus substantially forms a continuation, as best shown in Fig. 3, whereby a blank will pass readily from said bar 33 to the chute and continue down the latter. Inorder to prevent such passage by blanks which are not properly positioned in the bar 33, I provide what may be termed a pair of kickers 41 and 42, adjoining each other and pivotally mounted on the wall of the hopper to oscillate alternately over the top face of the chute near the upper end thereof in such manner that the curved lower ends of said kickers will pass freely over the heads of such screw-blanks as are properly positioned in the groove of the chute, but will engage blanks the shanks of which are not in said groove and knock the same off the top face of the chute and back into the hopper 24. To operate these kickers, I prefer to make each thereof one-of the arms of a bell-crank lever pivoted at 43, the other arms 44 and 45 thereof being adapted to be actuated by the cams 46 and 47 on the shaft 48, whereby the arms 41. and 42 will be alternately oscillated ing around a pulley 49' on said shaft and around the pulley 50, which is driven in a manner which will be hereinafter described. I also prefer to provide a top-plate 51 at the lower end of the chute, mountedjust far I enough above the top face of said chute to permit the free passage thereunder of the heads of the advancing screw-blanks, wherea by the latter are guided and are prevented from being jarred or otherwise accidentally thrown out of proper position and disposition. It will be noted, furthermore, that all of the parts heretofore described, with the exception of the. connecting-rod 30, are rigidly attached to the hopper, whereby when the latter is tilted on its pivot 23, as herein- 1 before explained, the lower end of ,the. chute will be raised, as shown by the dotted lines in Fig. 1, thereby affording ready access to the mechanisms underi'ieath the same.
The main driving shaft 52 of the machine, is journaled in any suitable manner in bearings in the frame of the latter, and is driven by means of a pulley 53 mounted thereon in Fig. 4, is a'double crank-shaft provided with the alternately-acting pitmen or connecting- rods 57 and 58. The headv 60 of the pitman or connecting-rod 57 is pivoted to a die-block 59 which. is horizontally slidable in suitable ways provided therefor in the.
arm 22 of the frame of the machine, in which ways it is retained for reciprocation by means of the horizontal plate of a bracket 61 secured to saidarm of the frame, as best shown in Figs. 8 and 9. The pitman or connecting-rod 58 is similarly provided with a head which'is pivoted to the sliding dieblock 62, similarly reciprocable in ways in the arm 22 of the frame of the machine and similarly retained in said ways by means of the horizontal plate whichforms a part of the bracket 63. v 4
On the top face of the die-block 59, is transverselyslidable in suitableways the plate 64 which has adjustably mounted thereon, by means of the retaining screw 65, the relatively smaller plate 66 at the end of which is mounted the finger 67. At the lower end of the chute which comprises the the plates 36 and 37,'are mounted the small jaws 104, 105 (presently to be described) which form arelatively short platform or jaw rest 68 upon which the screw-blanks are delivered from the chute. 'The parts which carry the finger 67 are so mounted and adjusted that said finger 67 is located in a horizontal plane below. the plane of the jaw rest 68, whereby said finger may engage. the
shank ofthe screw-blank after thesame has been delivered to said jaw rest and carry the latter in a forward direction. The plate 6t is reciprocated by means of an arm 69 which has a nose 7O projecting into a recess 71 in said plate, said arm being pivoted at 72 on the ,top face of the die-block 59, whereby oscillation of said arm causes transverse reciprocation of said plate 6th.
Properly-timed oscillation of the arm 69, to effect intermittent reciprocation of the plate 66, may be secured through the usual cam-and-roller instrumentality in many different ways. I prefer, however, to provide a stud 125 upon which is journaled the roller 7 3, and immediately above this roller 7 3 the supplemental roller 126 the lower face 127 of which is beveled and which is yieldingly pressed against the roller 73 by means of a spring 128 in compression between the upper face of the roller126 and the wasner 129 secured to the upper end of the stud 125 by means of the screw 130. The upper face of the horizontal plate of the bracket 61 is recessed for the reception of a plate 75, which is secured in place by means of plate 131 through which pass screws 132 which are threaded into the plate 61 and thereby rigidly secure in place both the plate 131 and the plate 7 5, the latter being made laterally adjustable by means of adjusting screws 133 passing through a vertical wing 161 of said plate 61 and abutting against the vertical wing 135 of said plate 75. The operative edge of the plate 7 5 projects slightly beyond the contiguous edges of the plates 61 and 131, and acts against the roller 73 to hold the finger 67 in the position indicated in Fig. 1.
As shown in this figure, the die-block 59 is about to start upon the return stroke of its reciprocation, and when the end of this edge of the plate 7 5 is reached, the roller 3 engages the cam 74 (best shown in Eig. 41), thereby oscillating the arm 69 to withdraw the finger 67 from the path of movement of the shanks of the screw-blanks 88. The plate 121 is provided with a cam 136 which projects slightly beyond the face of the cam 74- and which terminates in a curved seat or step 137 which is beveled, as best shown in Fig. i, in such manner that the tapered edge thereof passes between the rollers 73 and 126 and engages the beveled face 127 of the latter to raise the same, whereupon under action of the spring 83 the roller-end of the arm 69 is pressed outwardly until the stud 125, instead of the roller 126, engages the cam surface 136, as shown in Fig. 9, whereby the finger 67 is again pressed inwardly to engage the shank of the foremost scren blank on the jaw rest 68, as shown in Fig.
The die-block 59 now starts upon its forward stroke of reciprocation, with the roller 126 held in its raised position and the stud 12-5 sliding againstthe cam surface 136,
whereby the finger 67 is retained in its partially advanced and engaging position, and substantially this positional relationship of parts continues until the roller 73 passes off the cam 74 and on to the edge of the plate 75, this having the effect of further advancing the finger 67 in the direction of the die 90 for the purpose of pinching or wedging the shank of the advanced screw-blank be tween the dies 89 and 90, whereby operative engagement of said shank between said dies is insured.
Similarly, there is mounted on the upper face of the die-block 62 a plate 76 transversely slidable in suitable ways provided in said block and reciprocated by means of the oscillating arm 7 8, the nose 77 of which projects into a recess 79 in said plate 76, and the other end of which is provided with the roller 80 movement of which is controlled by the cam surface 81 provided on theplate 82 which is adjustably mounted on the bracket 63, the roller 80 being yieldingly held against thecam surface of the plate 82 by means of a spring 81.. Adjustably mounted on the top of the plate 76, by means of the screw 86, is the small plate 85, the end 87 of which provides a finger the function of which is similar to that of the finger 67 and which is located substantially in the same plane. 1
Referring now particularly to Fig. 4, it will be noted that the pitman or connecting rod 58 is in its most retracted position, with the pitinan or connecting-rod 57 in what may be termed its most advanced position. The die-block 62, therefore, is in its most retracted position, and has carried therewith the plate 76 upon which is mounted the plate 85 the end of which provides the finger 87. During this retractive movement, the cam surface 81 has acted upon the roller 80 to reciprocate the plate 76 and withdraw the finger 87 from the path of movement of the shank of the foremost of the screw-blanks 88, which are shown at the lower end of the chute. In this figure, this foremost blank 88 is shown as about to be delivered to the jaw est 68, and in Fig. 5 1 have shown this foremost blank as having been delivered to the j aw rest 68, the die-block 62 having been advanced by the pitman or connecting-rod 58 to such position that the finger 87 is in position to engage the shank of said blank. When this position is reached, the roller 80 has reached the end of the projecting cam surface 81, and under action of the spring St the arm 7 8 is operated to advance the finger 87 into the path of movement of the blanks 88 and just to the rear of the foremost of said blanks, which is now located on the jaw rest 68. After this operation, the finger 67 is carried rearwardly by movement of the pitman 57, and at the same time is similarly withdrawn fromthe path of movement of the.
blanks 88, and it will be apparent that the ends of the fingers 67 and 87 may be made to meet at or near the forward edge of the jaw rest 68, and when the foremost blank 88 (Fig. 5) is forced off the jaw rest 68 I ported by the ends of both fingers under neath the same and the rear corner of the die 89 which has been carried rearwardly with the .finger 67.
'The dies 89 and 90 may be mounted in the die- blocks 59 and 62 in any desired manner. but at least one thereof should be adjustably secured in order to provide for'operations upon blanks having shanks of different diameters. I have shown the die 90 provided with beveled ends and set into a correspondingly shaped recess which forms a seat or pocket therefor in the die-block 62 wherein it is retained by means of the plate 138 projecting over the same, this plate being .secured to the upper face of the die-block by means of the bolt 139. The die 89, on the other hand, instead of being set into the dieblock, is correspondingly set into a carrier 1 10 which is slidably mounted in suitable ways in the upper face of the die-block 59, the die being retained in said carrier by means of theplate 1 11 projecting over said dieand secured to the carrier by means of a screw-bolt 1 12. A screw-bolt 143 is threaded into a correspondingly threaded aperture in the boss 14 1 on the carrier 140 and acts against the washer 145 to draw said carrier against the spacing screws 14:6 threaded into the die-block and providing adjustable stops against which the carrier is adapted to abut. In this manner I am enabled to adjust the position of the die 89 with reference to the die 90 to vary the distance therebetween and thereby readily adapt this mechanism to blanks having shanks of a different diameter.
The operative faces of these dies co-act in the usual manner, through engagement of the shank of the blank as the latter passes therebetween during movement of said dies in opposite directions, to roll threads in said shank or otherwise operate upon the same. The die 89 in the die-block 59 is located in close proximity to the end of the finger 67, 7
whereby when a blank has been forced off of the jaw rest 68 by the finger 87, and partially supported through the head'thereof by-means of the end of the finger 67, the die 89 is in position (as shown in Fig. 6) to engage the shank of the blank and Complete the stable support thereof prior to positive engagement of said shank between the two dies 89 and 90. The die-block 59 has now been advanced, under the return action of the pitman or connectingrod 57',- carrying 1 therewith the finger 67 and the foremost of the blanks 88, the latter being supported between the die 89, the finger 67 and the edge of the plate 91 on the die-block 62. At the same time, the die-block 62 is being retracted under movement of the pitman or connect-V ing-rod 58, and as it passes the now advanced blank 88, it will have no effect thereupon, due to the fact that this blank is not in engagement between the two dies. However, as the die starts to move in a forward direction, and the die 89 starts to move in a rearward direction, the shank of this blank will be engaged between the two 013 eratire faces of the dies and roll along therebetween, as shown in. Fig. 5, to form screw threads on the shanks thereof or otherwise operate thereupon, and at the same" time ad- Vance the blank along the face of the die 90. V
W hen the blank reaches the end of the die- 90, it merely drops off into the bed of the machine, where a suitable receptacle 1s 'provided for the reception of the finished articles or where the upper end ofa suitable chute may be located to direct their final disposition in'such manner as may be desired.
In order to provide against too rapid delivery of the blanks 88 upon the jaw rest 68, or, rather, to insure the delivery of one blank at a. time thereupon, I may provide mechanism such as that shown in Figs. 10, 11 and 12, which includes an arm 92 pivoted at 93 to a bar 94: which is slidable in a way 91 (Fig. 1 1) in the plate 37 of the chute and retained in said wayby the plate 95 secured to the plate 37 and the bar 108 also secured to said plate 37. In the end of the arm 92 I is adjustably mounted a preferablyinclined I finger 96, the lower end thereof being provided with a tapered or beveled edge normally so located and disposed as to engage the head of the foremost blank in the chute and prevent delivery of the same upon the jaw rest 68. The finger 96 is normally re 1 tained in its most depressed position, in which position it is adapted to engage the head of the foremost blank, by means of a spring 97 mounted on the plate 95. It will be also noted that the top face of the arm 92 is of irregular outline, and that the lower face of the contimious end of the late 95 is similarly of irregular outline, these two surfaces forming cam faces by means of which will be apparent that as the die-block 62 is reciprocated, carrying therewith the plate 102, at the end of the forward stroke of reciprocation the lug 101 will engage the end of the screw-pin 100 and slightly advance the bar 94: carrying therewith the finger 96. As this finger is advanced, the cam faces on the upper side of the arm 92 and the lower side of the plate 95 permit depression of the arm 92 under action of the spring 97 to positively engage through the finger'96 the head of the next succeeding blank as the foremost of said blanks is being further advanced, as shown in Fig. 12, to hold the same at the rear end of the j aw rest 68. As the die-block 62 starts in a rearward direction, carrying therewith the plate 102 with the lug 101, the latter will be withdrawn from the end of the screw-pin 100, and the spring 103, in tension between suitable anchorages on the plate 95 and the lug 98 on the bar 9 1, will operate to return said bar 9 1 to its initial position, the cam surfaces referred to causing the elevation of said arm 92 against the action of the spring 97 in such manner that the finger 96 will clear the head of the blank which during this operation is being delivered upon the j aw rest 68.
In Figs. 13 to 16, inclusive, I have shown the slotted blank-receiving jaw rest 68 at the lower end of the chute which consists of jaws 104 and 105, the former being stationary, and the latter being formed at the end of a strip or bar 106, pivoted at 107 to the bar 108. On the operative face of the jaw 105, I have shown a teat 109, projecting into the path of movement of the shanks of the screw-blanks which pass between said jaws. At the free end of the arm 106, which carries the jaw 105, I provide a spring 110, in compression between the end of said lever 106 and the bar 108, whereby said jaws are yieldingly pressed in the direction of each other. It will be apparent that the teat 109 will engage the foremost of the screwblanks, as the same passes out of the chute, and retain it upon the jaw rest 68 in position to be engaged by the finger 87, while the remaining blanks in the chute are so disposed as not to be engaged by said finger. This foremost blank being yieldingly held by the teat 109, it will be apparent that the positive movement of the finger 87 in a forward direction may be with such force as to readily overcome the action of the spring 110, and force this foremost blank to position for engagement with the finger 67 and the die 89, in the manner which has been heretofore described.
It is quite possible that the spring-pressed teat 109 might alone suffice to insure proper retention of the foremost blank from the chute on the jaw rest 68 in position to be engaged by the finger 87, but I prefer to employ this device in connection with the blank retaining device which I have just described in connection with Figs. 10, 11 and 12, in order to insure absolutely perfect positioning and avoid any possibility of clogging up the mechanism through inopportune delivery of a blank or too rapid successive deliveries of said blanks.
It might be stated that the integral grooved bar 33 is employed at the upper end of the chute, forming a separate continuation or prolongation of the latter, instead of increasing the length of the plates 36 and 37 which form the chute proper and thus carry the chute itself through the hopper with the end thereof located above the reciprocating bar 29, on account of the fact that when it becomes necessary to adjust the lateral dimension of the chute to accommodate blanks having shanks of greater diameter, the upper end of the plate 36 of the chute might necessarily project out of the recess in the hopper wall 32, provided to receive the bar 33, and thus interfere with reciprocation of the bar 29-or, if the width of the chute were reduced, in order to properly dimension the same for blank-shanks of relatively small diameter, there would necessarily be a gap between the bar 29 when in its raised position and the bar 33, or between said bar 33 and the side wall 32 of the hopper, either of which conditions would be objectionable on account of the fact that a much greater proportion of the blanks delivered by the bar 29 to the upper end of the chute would fail to naturally position themselves with the shanks thereof directed into the groove. It will be apparent that by slightly shortening the chute proper, and providing a separate extension thereof in the form of a grooved bar, the latter, being comparatively short and light in weight, may be readily removed when it is desired to vary the width of the chute, and another bar substituted therefor, the groove in the latter being of a width which corresponds to the width of the groove in the chute proper as adjusted. Therefore, the width of a number of selective bars 33 may be made uniform, the only variations being the widths of the grooves therein, thus permitting of adjustable variation in the width of the groove of the chute within the range of the standard dimensions 0r gages of ordinary screw-blanks.
As will be clearly apparent from the drawings, the disk-wheel 31 which through the medium of the connecting-rod 30 reciprocates the bar 29, is driven from the crankshaft 56 by means of a belt 110 passing around the wheel-crank 111 on said shaft, which is grooved to form a pulley, and around said wheel 31. I have also shown a belt-tightener for the belt 110, the same comprising the idler pulley 112 controlled. in the usual manner from the hand-wheel 113.
The shaft 48' which through the cams thereon" actuates the kickers 41 and 42, is
driven, as hereinbefore stated, from the pulley 50 by means of the'crossed belt 49. This wheel 50 is mounted upon a short shaft 114% which is journaled in hearings in a plate or bracket 115 which is adjustably mounted upon the horizontal arm 22 of'the frame of the machine, whereby may be properly tensioned, in acommon. and well-known manner, not only the belt 149 but also the belt 116 which passes around thepulley 117 on the driving shaft 532 and around the pulley 118 on the shaft 114 to drive the pulley '50.
Fronr the foregoing, it isbelieved to: be apparent that I have provided a machine for forming threads upon the shanks of screw-blanks, or analogous operations. upon the shanks of headed blankssuch asknurling the shanks of wire nailswhich is comparatively simple in construction, substantially completely automatic in operation, eX-
ceedingly compact, and one in which the parts sub ect to the greatest wear are readily accessible for replacement or repair; and in connection'with this last-mentioned advantage, attention may be called to the fact that in the machine shown and described even the crank-shaft 56 may be removed for the replacement of worn hearings, or for other PL1IPOS6S,WVltl1OHlI the necessity for dismantling the machine to a degree which has heretofore been necessary in connection with machines of this character. 'As shown by the dotted lines in Fig. 1 of the drawings, the bearing block 119 for the shaft 56 atthe end of the arm 120, which includes the-heavy flange 121 and which is secured in said arm 120..by'means of the screws 122, is made of such diameter that after withdrawal of the same, and. detachment of the divided heads 1123and 12 1 of the connecting-rods 57 and 58- from the Wrist-pins, the crank-shaft 56 in its entirety may be withdrawn through the z arm 120.
Many modifications of minor details of my improved machine for threading screW- blanks, within the scope of my appended claims, will doubtless readily suggest them- Secure by adapted to engage said blank and operate upon the same in transit, and means for successlvely advanclng said blanks from said the foremost blank,
jaw rest to thedie. a 2. In a machine of the character depoint of engagement by; said scribed, the combination, with a chute and means for delivering blanks thereto for transmisslon wtherethrough in" processional order and similar d1spos1t1on,-of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost-blank, means for checking movement/ofthe remaining blanks in said chute while theforemost thereof is being delivered to and retained. upon said jaw rest, I
a reciprocating die adapted to engage said blank and operate upon thersame in transit,
and meansfor advancingeach blank in turn fromsaid jaw rest to engagementby said die.
3. In a machine of; the character described,
the combination, with a chute and means for' delivering blanks thereto: for. transmission therethrough 1n processlonal order and similar CIISPOSIUOII, of a: aw rest carried by said chute at the foot thereof and adapted to receive and yieldingly supportthe foremost blank, a pair of oppositely reciproeating dies adapted to engage said blank and operate upon the same in transit, and means for successively advancing said blanksfrom'saidjaw rest to engagement by said dies.
4. In a machine of the character described;thecombination', with a chute and means for deliveringblanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried bysaid chute atthe foot thereof and adapted toireceive and yieldingly means for checking movement of the remaining blanks in sand chute while said foremost blank is being delivered to and retained upon said jawrest,
.a pair of reciprocating dies adapted to engage said blank and operate'upon the same in transit, and means for advancing each blank in. turn fromsaid jaw rest to engagement by said dies.
5. In a machine: of the character described,the combination with a chute and -1neans for delivering blanks thereto for transmission therethrough in processional order and. similar disposition, ofa jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost blank, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage said foremost blank and operate upon the same :in transit, and means carried by said die-blocks for successively advancing said blanks from sald jaw rest to engagement by said dies.
6. In a machine of the character described,the combination, with a chute and means for deliveringv blanks thereto for support I transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldinglv support the foremost blank, means for checking movement of the remaining blanks in said chute While the foremost thereof is being delivered to and retained on said jaw rest, a pair of oppositely reciprocating dieblocks carrying dies adapted to engage said blank and operate upon the same in transit, and means carried by said die-blocks for ad vancing each blank in turn from said jaw rest to engagement by said dies.
7. In a machine of the character described, the combination, with a chute and means for del'vering headed blanks thereto for transmission therethrough in processional order and similar disposition, of ajaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost blank, said blanks being supported in said chute and on said jaw rest through the heads thereof, a reciprocating die adapted to engage the shank of said blank and operate upon the same in transit, and means for successively advancing said blanks from said aw rest to engagement by said die.
8. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost blank, said blanks being supported in said chute and on said jaw rest through the beans thereof, means for checking movement of the remaining blanks in said chute while the foremost thereof is being delivered to and retained upon said jaw rest, a reciprocating die adapted to engage the shank of said blank and operate upon the same in transit, and means for advancing each blank in turn from said. jaw rest to engagement by said die.
In a machine of the character described. the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldinglv support the foremost blank, said blanks being supported in said chute and on said jaw rest through the heads thereof, a pair of oppositely reciprocating dies adapted to engage the shank of said blank and operate upon the same in transit, an 1 means for successively advancing said blanks from said jaw rest to engagement by said dies.
10. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission. therethrough in. processiona]. order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and, yieldingly support the foremost blank. said blanks being supported in said chute and said jaw rest through the heads thereof, means for checking movement of the remaining blanks in said chute while said foremost blank is being delivered to and retained upon jaw rest, a pair of re ciprocating dies adapted to engage the shank of said blank and operate upon the sa me in transit, and means for advancing each blank in turn from said jaw rest to engagement by said dies.
11. In a inachine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yield inglv support the foremost blank, said blanks being supported in said chute and on said jaw rest through the heads thereof, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage the shank of said foremost blank and ope ate upon the same in transit, and means carried by said die-blocks for successively advancing said blanks from said jaw rest to engagement by said dies.
12.111 a machine of the character described, the combination with a chute and means for delivering headed blanks thereto for transmission therethrough in, processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support he foremost blank. said blanks being supported in said chute and on said jaw rest through the heads thereof, means for checking movcn'ient of the remaining blanks in, said chute while the foremostthereof is being delivered to and retained on said jaw rest, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage the shank of said. blank and operate upon the same in transit, and means carried by said die-bloc s for advancing each blank in turn from said jaw rest to engagement by said dies.
13.1.11 a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in. processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive the foremost blank a lltl yieldingly support the same through the head thereof, a reciprocating die adapted to engage said blank and operate upon the shank thereof in transit, and a reciprocating finger adapted to successively engage the blanks as theyare delivered on said jaw rest and advance each thereof from said jaw rest to engagement by said die.
14. In a machine of the character de scribed, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest at'the foot of said chute adapted to receive the foremost blank and support the sai'ne through thehead thereof, a reciprohcating die adapted to engage said blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on said rest and advance the same from said rest to engagement by the other finger and said die. I
15. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a jaw rest carried by said chute at the foot thereof and adapted to receive the foremost blank and yieldingly support the same through the head thereof, means for checking movement of the remaining blanks while said foremost blank is beingdelivered to and supported upon said jaw rest, a reciprocating die adapted to engage said foremost blank and operate upon the shank thereof in transit, and a reciprocating finger adapted to engage the blank on said jaw rest and advance the same from said jaw rest to engagement by said die. 7
16. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest 7 at the foot of sald chute adapted to receive the foremost blank and support the same through the head thereof, means for checking movement of the remaining blanks while said foremost blank is being delivered to and supported upon said rest, a reciprocat ing die adapted to engage said foremost blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on the rest and advance the same from said rest to engagement by the other finger and said die.
17. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, of a rest at the foot of said chute adapted to receive and support the foremost blank, a pair of oppositely reciprocating dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on the rest and advance the same from saidrest to engagement by the other linger and oneof said dies, and said said blank to engagement between said dies.
18. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission sional order and similar disposition, of a rest at the foot of said chute adapted to receive and support the foremost blank, means for checking movement of the remaining blanks in said chute While said foremost blank is being delivered to and supported on said rest, a pair of oppositely reciprocating dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a pair of oppositely reciprocating fingers, one adapted to engage the blank on the rest and advance the same from said rest to engagement by the other finger and one of said dies. and said other finger further advancing said blank to engagement between said dies.
19. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission therethrough in processional order and similar disposition, .of a rest at the foot of said chute adapted to receive and support the foremost blank. a pair of oppositely reciprocating die-blocks carrying dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a finger carried by each of said die-blocks reciprocable therewith and reciprocating transversely thereof,'on.e of said fingers being adapted to engage each blank on said rest in turn and advance the same from said rest to engagement by the, otherfinger and one of said dies, and said other finger further advancing said blank to engagement between said dies. 1
20. In a machine of the character described, the combination, with a chute and means for delivering headed blanks thereto for transmission there-through in processional order and similar disposition, of a rest at the foot of said chute adapted to receive and supportthe foremost blank, means for checking movement of the remaining blanks while the foremost thereof is being delivered to and supported upon said rest, a pair of oppositely reciprocating die-blocks carrying dies adapted to engage said foremost blank and operate upon the shank thereof in transit, and a finger carried by each of said die-blocks reciprocable therewith and reciprocating transversely thereof, one of said fingers being adapted to engage each blank on said rest in turn and advance the same from said rest to engagetherethrough in proces-.
asserts ment by the other linger and one of said dies, and said other linger further advancing the blank to engagement between said dies.
21. In a machine of the character described, the combination with a chute and means for delivering blanks thereto, of a jaw rest at the foot of the chute which is adapted to receive and yieldingly support the foremost blank, means for checking movement of the blanks in the chute while a blank is held by the aw rest, means for advancing the blanks singly from the jaw rest, a reciprocating die which operates on the blanks While in transit, and means cooperatingwith the checking and advancing means to retain the blank in position.
22. In a machine of the character described, the combination with a chute and means for delivering blanks thereto, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yield ingly support the foremost blank, means for checking movement of the remaining blanks in said chute while the foremost blank is being delivered to and retained upon said jaw rest, a reciprocating die adapted to engage said blank and operate upon the same in transit, means for advancing each blank in turn from said j aw rest to engagement by said die, auxiliary means reciprocally mounted at the base of said chute and adapted to cooperate with the blank checking and advancing means, and means for actuating said auxiliary means.
23.111 a machine of the character described, the combination with a slotted chute and means for delivering blanks thereto, of a jaw rest carried by said chute at the foot thereof and comprising a pair of jaws having opposed operative faces in alinement with the slot of the chute, one of said jaws being pivotally attached to the chute and yieldingly pressed toward the other, said jaws being adapted to receive and support the foremost blank, said pivoted jaw being provided'on its operative face with a teat projecting in the path of movement of the blanks to check movement of the remaining blanks while the foremost blank is being yieldingly retained upon the jaw rest, a reciprocating die adapted to engage said blank and operate upon the same in transit, and means for advancing the blanks from said jaw rest to engagement by the die.
24. In a machine of the character described, the combination with a chute and means for delivering blanks thereto, of a jaw rest carried by said chute at the foot thereof and adapted to receive and yieldingly support the foremost blank, means for checking movement of the remaining blanks in said chute while the foremost blank is being delivered to and retained upon said jaw rest, a pair of reciprocating dies adapted to engage said blank and operate upon port the foremost blank,
the same in transit, means for advancing each blank in turn from said jaw rest to engagement by said dies, and auxiliary means reciprocally mounted at the base of said chute and adapted to cooperate with the blank checking and advancing means.
In a machine of the character described, the combination with a slotted chute and means for delivering blanks thereto, of a jaw rest carried by said chute at the foot thereof and comprising a pair of jaws having opposed operative faces in alinement with the slot of the chute, being pivotally attached to the chute and yieldingly pressed toward the other, said jaws being adapted to receive and support the foremost blank, said pivoted jaw being provided on its operative face with a teat projecting in the path of movement of the blanks to check movement of the remaining blanks while the foremost blank is being yieldingly retained upon the jaw rest, a pair of reciprocatingdies adapted to engage said blank and operate upon the same in transit, means for advancing each blank in turn from said jaw rest to engagement by said dies, auxiliary means reciprocally mounted at the base of said chute and adapted to cooperate with the blank checking and advancing means, and means for actuating said auxiliary means.
26. In a machine of the character described, the combination with a slotted chute and means for delivering blanks thereto, of a jaw rest carried by said chute at the foot thereof and comprising a pair of jaws having opposed operative faces in alinement with the slot of the chute, one of said jaws being pivoted to the chute and yieldingly pressed toward the other, said jaws being adapted to receive and support the foremost blank, said pivoted jaw being provided on its operative face with a teat projecting in the path of movement of the shanks of said blanks to check movement of the remaining blanks while the foremost thereof is being delivered to and yieldingly retained upon the jaw rest, afpair of oppositely reciprocating die blocks carrying dies adapted to engage said blank and operate upon the same in transit, means carried by the die blocks for advancing each blank in turn from the jaw rest to engagement by the dies, auxiliary means reciprocally mounted at the base of the chute and adapted to cooperate with the blank checking and advancing means, and means carried by one of said die blocks adapted to engage and actuate said auxiliary means.
27. In a machine of the character described, the combination with a chute and means for delivering headed blanks thereto, of a jaw rest carried by said chute at the foot thereof and adapted to receive and supone of said jaws said blanks being supported in said chute and on said jaw rest by the heads thereof, means for checking movement of the remaining blanks in said chute while the foremost thereof is be 7 ing delivered to and retained upon said jaw of jaws liaving opposed operative faces in alinement with the slot of the chute, one of said jaws being pivotally attached to the chute and yicldingly pressed toward the other, said jaws being adapted to receive and support the foremost blank, said pivoted jaw being provided on its operative face with a teat projecting in the path of movement of the shanks of the blanks to check movement of blanks in the chute, said blanks being supported in said chute and on said jaw rest by the heads thereof, a reciprocat ing die adapted to engage the shanks of the blanks and operate upon them while in transit, means for advancing each blank'in turn from said ja w rest to engagement by said die, and auxiliary means reciprocallymounted at the base of said chute and adapted to cooperate with the blank checking and advancing means.
29. In a machine of the character described, the combination with a chute and means for delivering headed blanks thereto, of a jaw rest 'arried by said chute at the foot the of and adapted to receive the foremost blank and support the same by the head thereof, means for checking movement of the remaining blanks while the foremost blank is being delivered to and supported upon the jaw rest, a reciprocating die adapted to engage the foremost blank and operate upon the shank thereof in transit. a reciprocating finger adapted to engage the blank on the jaw rest and advance the same to engagement by the die, and auxiliary means reciprocally mounted at the base of the chute and adapted to cooperate with the blank checking and advancing means 30; In a machine of the character de- "combmat'ionp w1tha slotted chute, andineans for delivering"headed scribed, -thc blanks thereto, of a. jaw rest at-the base'of Said; chute adapted to receive and support the foremost blank, said blanks being supportedin the chute and on 'the' jawrest by Copies, of this patent may be obtained for five "cents each, by: addressing the Commissioneref Paltentsg 7.? r a 7 1 Washington, D. Q.., .v you" 1 a; Lil
the heads thereof, means for checking movement of blanks in the chute while a blank is retained on the jaw rest, a pair of reciproeating dies adapted to ngage the shank of", the blank on the jaw rest, and means for advancing the blanks rest to the dies. 7
31. In a machine in turn from the jaw of thecharacter described, the combination with a slotted chute, and means for deliverin headed blanks thereto, of a jaw rest at the base of said chute adapted to receive and support the foremost blank, said blanks being sup ported in the chute and on the jaw rest by the heads thereof, means forehccking move ment of blanks in the chute while a blank is retained on the jaw rest, a pair of recipro eating dies adapted to engage the shank of the blankon the jaw rest, means 'for'advancing the blanks in turn from the aw rest to the dies, and auxiliary means reciprocally mounted at the base of the chute and adapted to cooperate with the blank checking and advancing means.
32. In a machine of the. character described, the combination with a slotted chute and means for delivering headed blanks thereto, of a jaw rest comprising a pair of jaws having opposed operative faces in alinclnent with the slot of the chute, one of said jaws being pivoted and yieldingly pressed toward the other, and said pivoted check the movement of the blanks in the chute, a pair of oppositely reciprocating die blocks carrying dies adapted to engage the foremost blank, andfingers carried by said die blocks, one of which acts to advance each blank from the jaw rest to engagement by the other finger and one of the dies, the other finger further advancing the blank to engagemeut between the dies; 7
33. In a machine of the character described, the combination with a slotted chute and means for delivering headed blanks thereto, of a jaw rest comprising a pair of rying dies adapted to engage the foremost blank, fingers carried by the die blocks and ZICUHQSUCCOSSiW-BIY to advance the blanks from the jaw rest to engagementby the dies aw being provided with a teat adapted to and auxiliary means cooperating with the" to'the jaw rest.
' teat and one of the fingers to insuredeliveryfl 'of but one blank at a time from the chute Lens M. TIIORSEIJLL'T'
US13908416A 1916-12-27 1916-12-27 Automatic thread-rolling machine. Expired - Lifetime US1254176A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE891786C (en) * 1934-02-20 1953-10-01 Nat Machinery Co Machine for the production of head screws with roll thread
US3013694A (en) * 1957-12-30 1961-12-19 Vigon Inc Feeding mechanisms for drilling machines
US4583385A (en) * 1983-11-14 1986-04-22 Warren M. Jackson, Inc. Flat die thread roller
US5542275A (en) * 1991-02-08 1996-08-06 The National Machinery Company Flat die thread roller

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE891786C (en) * 1934-02-20 1953-10-01 Nat Machinery Co Machine for the production of head screws with roll thread
US3013694A (en) * 1957-12-30 1961-12-19 Vigon Inc Feeding mechanisms for drilling machines
US4583385A (en) * 1983-11-14 1986-04-22 Warren M. Jackson, Inc. Flat die thread roller
US5542275A (en) * 1991-02-08 1996-08-06 The National Machinery Company Flat die thread roller

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