US940627A - Sole-leveling machine. - Google Patents

Description

H. A. WEBSTER.

SOLE LEVELING MACHINE.

APPLICATION FILED 1330.19, 1904.

940,627. Patented Nov. 16, 1909.

6 SHEETS-SHEET l.

wir@

@gli iI H. A. WEBSTER. SOLE LBVELING MACHINE. APPLICATION FILED DEO. 19, 1904.

Patented Nov. 16, 1909.

6 SHEETS-SHEET 2.

H. A. WEBSTER.

SOLE LEVELING MGHINE.

APPLICATION FILED DEU. 19L 1904. 940,627, Patented Nov. 16, 1909.

GSHBBTS-SHBBT 3.

H. A. WEBSTER. SOLE LEVBLING MAGHINE. APPLICATION FILED DBU. 19, 1904.

940,627. Patented Nov. 16, 1909.

6 SHEETS-SHEET 4.

-00 a j Y JI/f0- O l f3.5 f8 15e fr 4a" 1 y ff H. A. WEBSTER. SOLE LEVELING MACHINE. APPLICATION FILED 1330.19, 1904.

940,627. Patented Nov. 16, 1909.

6 SHEETS-SHEET 5.

Jl/wmf 1 l l M Ef/Wwf@ H. A. WEBSTER.

SOLE LEVELING MACHINE.

APPLICATION FILED Dnc. 19, 1904.

J/ Wm @y UNTTED STATES PATENT OFFTCE.

HAROLD A. WEBSTER, OF HAVERHILL, MASSACHUSETTS, ASSIGNOR, BY MESNE ASSIGN- MENTS, TO CHARLES K. FOX, OF HAVERHILL, MASSACHUSETTS.

SOLE-LEVELING MACHINE.

Specification of Letters Patent.

Patented Nov. 16, 1909.

To all 'whom it may concern:

.Be it known that l, HAROLD A. Vvlnsfrnn, of Haverhill, in the county of Essex and State of Massachusetts, have invented certain new and useful Tmprovements in Solelniveling Machines, of which the following is a speeilication.

This invention relates to sole-leveling inachines, and consists in certain improvements upon such machines which will be herein after fully described and claimed.

Hitherto it has been diticult with sole-leveling machines in which the leveling-tool is a roll, to press down and compact the edges of the sole in those portions where the curvature is the most abrupt, especially in the shank portion, and as a result the soles of shoes operated on by such machines have not conformed properly to the shape of the last and of the foot of the wearer. This difficulty was overcome in a machine heretofore constructed by providing rolls having' two ditferently-curved Zones, one shaped to act on a fore-part edge of a sole and the other, with a shorter radius of curvature adapted to act on a shank edge, the axis of the roll being always held parallel to itself and capable of moving only toward and away from the shoe. In the present machine the same result is achieved in a more perfect manner by providing` the machine with a roll mounted so as to be capable of turning about two axes substantially perpendicular to each other and to the axis of the roll, and furnishing means for oscillating the roll about one of the said axes; and it is in this improved cons'truction and arrangement that my present invention principally cons (lf the accompanying drawings,-. .-gure 1 represents a rear elevation of a sole-leveling machine embodying the preferred form of my invention. Figs. Q and 3 represent elevations as seen from opposite sides of the machine. Fig. 2a is a detailed view of the clutch, the same being viewed as a vertical section taken through the center ofshaft 29. Fig. 2b is an elevation of the same mechanism as seen from the right of Fig. 2a. Figs. L1, 5 and 6 represent similar views of a modi tied form of the invention.

The same reference characters indicate the same parts in all the figures.

The machine comprises the supportingframe 10 which carries theshaft 11,holder 13,jacks 111, the various leveling-rolls, and operating mechanism therefor.

vThe novel features of this invention consist of aroll 1 which is provided withtrunnions 2 mounted inbearing blocks 99 slidably supported on a track carried by or formed on the curved arms of ayoke 100, the latter being pivoted at 102 to abracket 103 on a spindle 10a extending through and rotatably mounted in a tubular bearing formed in a tool-holder 105 pivotally mounted on the driving-shaft 61 so as to be capable of being moved toward and away from the jack-carryinghead 13. The construction and arrangement of the tool-holder is such that when the tool is in position to act upon a shoe carried by one of the jacks shown in Fig. 2, the bearing for thebracket 103 and its spindle 10stextends approximately in the same direction as the shoe carried by the j ack, and the axis of thespindle 104 and the point of Contact between the roll and the shoe are substantially or nearly in the same straight line. Thus when the spindle is oscillated by means to be presently described, the roll will tilt laterally in such a way as to roll from side to side over the sole of the shoe practically without sliding movement.

The mechanism for oscillating the roll in the manner referred to comprises anarm 106 mounted on the end of spindle 104C, an eccentric 107 on the main driving-shaft 29, and aneccentric rod 108 pivoted to thearm 100 and connected to aneccentric strap 109 surrounding the eccentric.

The jacks are caused to move in the direct-ion of the arrow in Fig. 2, by rotation of theshaft 11 on which thehead 13 which l,arries the jacks is mounted, fromshaft 61, which is itself operated from thedrivingshaft 29 by belt 2G running overpulleys 62 28 on these two shafts respectively, through the following` mechanism; shaft 01 carries bevel gear G3 meshing with a second bevel gear 110- on a shaft journaled in a bracket 11S mounted on theframe 1,0. This shaft carries aworm 112 in gear with awormwheel 113 journaled on stud 119 which also supports adisk 114 carrying a number of projections orstuds 115, of which there are as many as there are jacks carried by the head, and which take intoradial slots 116 in adisk 117 keyed or otherwise rigidly connected to theshaft 11. This mechanism,

as will be readily apparent, gives the jacks a motion which is alternately fast and slow, for the disk 114:V rotates at a constant speed and the studs engagedisk 117 at constantlyvarying distances from its center. Thus when disk 1111 is in such a position that one of itsstuds 115 is in line with the centers of the stud 119 andshaft 11 and engaged in a slot 11G, being then moving directly across the line of the slot and at the minimum distance from.shaft 11, the moment arm on which the stud acts, that is, the distance betweenshaft 11 and the point at which the stud engages the side of the slot, is so short that a small angle of motion of the stud turnsdisk 117 through a large angle and theshaft 11 andhead 13 are rotated with great comparative rapidity, the result being the same as that attained by a large gear in mesh with a small one. On the other hand, when the stud is just entering or just leaving a slot (such position being shown in F ig. 3) its line of motion extends almost in the same direction as the slot it engages, so that a comparatively great amount of travel of the stud is necessary to turn the disk even slightly, and the latter is then given a very slow motion, the speed of disk 114C being always the same. The disks and studs are so arranged that the slowest motion is given to the jacks when the shank part near the broad portion of the sole of one of them is engaged with the roll. r1`he greatest extremes of speed consistent with smooth running are obtained when there are four studs and four slots employed and the proportions are substantially the same as here shown.

In order to bring theroll 1 into operative relation when the shank of a shoe carried by one of the jacks is adjacent to the roll and retain the roll in inoperative position at all other times, the following mechanism is provided: Connected to theshaft 11 adjacent the ack-holder, is a cam-disk or rest 51 which has a plurality ofrecesses 53 andprojections 52, one of each being adjacent each ack, the tool-holder 105 being formed with an arm or bracket 7 which carries a roll 5-t adapted to bear against the outer surface of thedisk 51 and to be operated by the projections and recesses. r1`he roll 5t is held against the disk by means of a bellcrank lever S4: which bears against a pin S3 carried by the arm 7, the lever being caused to act continuously with yielding pressure by means of aweight 93 attached by a spring 05 to the end of the horizontal arm of the lever. r1`he roll is also yieldingly projected from the tool-holder laterally about the pivot 102 by means of aflexible arm 121 fixed at one end to theyoke 100 and connected at its outer end by a spring 122 with a projectingarm 123 rigidly connected to the tool-holder 105. A stop 12st on the bracket 7 prevents too great projection of the roll and causes it to move with theholder 105 when the latter is turned away from the jack by the mechanism above described.

Normally theroll 1 is held away from the path of motion of the jacks by means of the roll 5ft engaging the projectingparts 52 of the disk but when one of the jacks comes adjacent to the leveling-roll the trundle-roll 54 is caused to move into one of thedepressions 53 by the pressure of the weighted lever Se, the tool-holder being thereby made to swing toward the jack so as to bring the leveling-roll into engagementwith the shoe.

In order that the force of theweight 93 tending to hold theroll 54 against the cam may not be overcome by its momentum diie to the rapid rising of the horizontal arm of the bell-crank 84.1-, aspring 95 is interposed between the end of the arm and the weight, and causes the weight to exert a downward pressure at all times on the lever. lf desired, thisspring 95 may be connected to a stationary part of the machine.

Theroll 1 is designed particularly to operate on the shank part of the shoe to press down and compact the edges of the sole at that portion which has the sharpest curvature, therolls 80 and 45 being designed to perform the leveling` operation on the forepart of the sole, and in order to restrict the operation of theroll 1 to act-ion upon the shank part alone, there is provided mechanism for stopping the oscillation of the roll and its holder about the axis of the spindle 10i when the end of the shank part of the sole comes into engagement with the roll. rfhis is effected by mechanism which throws out the clutch by which the eccentric 107 is connected to theshaft 29. This eccentric is loosely mounted on the shaft so that the latter can turn withont rotating the eccentric, and is provided with a clutch 125 adapted to be engaged with theshaft 20 so as to rotate therewith, and provided with a projection ordog 126 extending into the path of motion ofcams 127 pivoted at 12S to the cam-disk 51. There are as many cams as jacks ant. they are so positioned that as soon as one jack reaches the point where the heel end of the shank of a shoe carried by it is opposite the roll, a cam 12T comes into engagement with thedog 126 and turns it to throw in the clutch 125 and start the roll oscillating. As soon as the cam passes the dog, the latter is allowed to return to its inoperative position and the clutch is disconnected and the oscillation of the roll stops. .Since the cam is pivoted near one end, by turning it about its pivot a greater or less extent of its surface is presented to act on the dog, as will be evident from an inspection of the drawings, and consequently the period of time during which the clutch is CAD i theroll 1 is pivoted in a yoke o connected may be varied. For shoes having a short shank, only a small extent of the cam is projected, while for longer shoes more of the cam surface is presented. By suitably adjusting` the cams, therefore, the roll may be made to operate properly on a shoe of any length, and to stop as soon as the end of the shank part has passed. Preferably there will be enough friction at the pivots of the cams to hold the latter properly in Whatever position of adjustment they may be given.

Any suitable form of clutch capable of performing the result desired may be used. For purj'ioses of illustration have shown in Figs. 2a and 2b one such clutch, although of course it Will be understood that any other may be used. The eccentric 107 is shown as having ahub 291 having a flaring recess in which enters the tapered end of thesleeve 292 mounted upon theshaft 29 so as to rotate therewith, but capable of sliding' longitudinally thereon, being held by any device capable of accomplishing this result, such as by the key 293. Theclutch member 125 is permissibly a collar which is mounted upon a cam 125a affixed to theshaft 29 and having a cam portion 125). lVhen the arm 120 is moved to the left as seen in Fig. 2n or to the right as seen in Fig. 2b the clutch collar is forced by thecam surface 125" tovard the end of shaft 129, crowding the tapered sleeve into frictional engagement with the hub of the eccentric. After thecam 127 has pzesed thearm 126 the parts are restored to normal position by a spring 120a which .is set into theclutch collar 125 and bears at one end against a shoulder 120b on the stationary cam member, and at the other end against an abutment 126c and the clutch collar.

A pointer 129 fixed to the machine frame is provided in order to indicate the position which a` jack should occupy when a shoe is put on it in order that the shank of the shoe may be properly engaged by theroll 1.

1n the form of the machine shoivn in Figs. et, 5 and 0, the main features are the same but .many details are different. 1n this form l pivotally mounted so as to be capable of turning in a bearing Ll which is formed onau arm 5 mounted in a bearing formed in a tool-holder mounted in a manner similar to that of theholder 105, and the roll is oscillated from side to side by anarm 3 which is connected 'to the lower end of the arm orspindle 5 and is operated from the crank-disk 75 through a connectingrod 9 joined to the crank-arm 8 by a ball-and-socket joint 76, and by a similar joint 77 to a block 7 3 mount-ed in aradial groove 79 in the crank-disk. By adjusting theblock 78 toward or away from theshaft 64 on which thedisk 75 is mount ed the amount of throw of thearm 5 and consequently the inclination oftheroll 1 with respect to the edge of the sole on which it acts may be regulated. The mechanism for rotating the acks comprises a Worm-gear 67 mounted onshaft 11 and operated by a Worm GG on the shaft, which is driven by the shaft G1 in the same manner as isshaft 111. The means for starting and stopping the oscillation of the roll and for retarding the. motion of the jack when the forward end of the shank part of a shoe comes into contact with the roll are also different in the modified form. The former means comprises mechanism for connecting and disconnecting the disk f5 to and from its shaft. This disk is loosely mounted on shaft G1 and has a clutch member adapted to be engaged with a complemental clutch member 8f) mounted on theshaft 64 so as to rotate therewith, but to be capable of 'sliding longitudinally thereon, and which is connected to one end of thelever 88 pivoted at 87 to the machine frame. On the sam-e pivot S7 is mounted a lever 8G adjustably connected to lever 83 by clamp-stud 92 engagingslot 91 in an arc-shaped projection 90 of the lever and carrying aroll 32 which is normally held in engagement with the cani-disk 8() by a spring 94, as shown in Fig. 3. The disk S0 is provided With a plurality of projections S1 which are adapted to force the roll 82 away from the disk, causing it to turn about its pivot and move thelever 88 with which it is connected in such a direction as to throw the clutch member S9 into engagement With the clutch member carried `by thedisk 75. The number ofprojections 81 on thedisk 30 is the same as th-e number of jacks carried by the head, and they are so arranged as to engage theroll 32 and connect the clutch members at the same time that theroll 1 comes into engagement with the shank of a shoe carried by one of the jacks, and the Width of the projections is such that the clutch is disconnected as soon as the end of the shank portion has passed by the roll, thus causing the oscillating motion about the axis of thearm 5 to cease at the point indicated, the subsequent action of the roll on the forepart of the shoe being the same as that of the other levcling-rolls- Lever 8G also is connected at 131 with alink 132 having a pivotal connection With a clutch-arm 232 mounted on theshaft 11 and connected to operate a clutch 133 by which the gear 07 andcam 80 are caused to detachably engage the shaft, they being loosely mounted on the shaft but rigidly connected together. By this linkage, when the roll S2 is moved by aprojection 31 and theroll 1 made to oscillate, thehead 13 is at the same time disconnected from its actuating' meehanism and allowed to come to rest after its momentum has carried it far enough for the forivard end of the shank of a shoe to come into engagement with the roll. Here it remains while the roll tilts back and forth, pressing down and rounding over the edges of the shank, until the projection Sl has' moved by roll 82 and the arm 86 is returned, throwing out the oscillating mechanism and connecting the jack-carrying head with the actuating gear. The length ot' vthe acting faces of projections 8l determines the length of time the roll l is in contact With a shoe and the number o'l' impacts it will make on the edges of the shank.

By reason of the oscillating movement described, which is so rapid that several oscil lations may take place while the shank is passing by the roll, the surface of the roll is inclined at a sharper angle to the edges of the shank part ot the sole than would be the case itt' no such motion were given. The rotatable connection of the roll to the yoke l0() of Figs. l, 2 and 3, and its pivotal connection to thearm 5 of Figs. fl, 5 and (5 being substantially perpendicular to the axis of rotation of said yoke and arm, allows the roll to turn so as to accommodate itself to the diti'erent curvatures of the inner and outer edges of the shoe-sole.

I claim l. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, a pivoted trame adapted to swing toward and from the path of the jack, and a leveling-tool carried by said fra-me and adapted to move laterally so as to vary the inclination of the tool With respect to the jack.

A sole-leveling machine comprising a jack, and a tool mounted to operate on a sole carried by said jack and arranged to osciliate about an axis extending in the same general direction as the length of the sole on which. the tool is acting and also to turn about an axis perpendicular to said irstnamed axis and to the sole.

ri sole-leveling machine comprising a jack, a tool mounted to operate o-n a sole carried by said jack and arranged to oscillate about an axis extending in the same general direction as the length otl the shoe on which the tool is acting and also to turn about an axis perpendicular to said firstnamed axis and to the sole, and means for oscillating said tool about one of said axes.

4l. A solesleveling machine comprising a jack, a tool-holder pivoted for movement toward and from said jack, and an operating tool comprising a roll carried by said toolholder and arranged to turn about three axes substantially perpendicular to each other.

A sole-leveling machine comprising a jack adapted to move progressively in a predetermined vpath, a tool adapted to act on a sole carried by said ack, means to oscillate said tool, said means being normally inoperative, and means for rendering said tooloscillating means operative during the period in which the shank portion of a sole is in engagement With said tool. t

G. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, and a tool adapted to operate on a sole carried by said jack and mounted ior rotary movement laterally of the jack about an axis approximately co incident with the center of the acting face of the tool and also to turn about a second axis transverse to the said first axis and in line with the center oi the acting Jface of the tool.

7. A soleleveling machine comprising a jack having a progressive movement in a predetermined path, an operating tool, means tor alternately holding said tool first yieldingly in the path of said jack and then out ol? said path, the tool being arranged to act on a sole supported by the jack, and means for oscillating the tool laterally about the jack While the tool is acting on the shank portion oi a sole.

S. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, an operating tool, means for alternately holding said tool first yieldingly in the path of said jack and then out of said path, the tool being arranged to act on a. sole supported by the jack, means for oscillating the tool laterally about the jack While the tool is acting on the shank portion ot a sole, and means for rendering said tool-oscillating means inoperative at all other times.

5). A sole-leveling machine comprising a series of jacks revolved progressively in a circular path, an operating tool, means for alternately holding said tool irst yieldingly in the path of the jacks and then out ot' said path, the tool being arranged to act on the sole supported by each jack, mechanism adapted to be rendered operative or inoperative for constantly altering the inclination ot said tool with respect to said path, and means 'for rendering said mechanism operative While the shanks of the soles are in engagement with the tool and inoperative at all other times.

10. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, a tool adapted to operate on a sole carried by said jack, means to oscillate said tool laterally With respect to the jack, and means for moving the jack, said means being constructed and arranged to permit retardation of the jack While the roll is in contact With the shank part of the sole.

1l. A sole-leveling machine comprising a jack adapted to move progressively in a predetermined path, a tool adapted to act on a sole carried by said jack, means to oscillate said tool, said means being normally inoperative, and means for rendering said tool-oscillating means operative during the period in which the shank portion of a sole is in engagement With said tool, said means being adjustable to vary the period of operation.

l2. A sole-leveling machine comprising a jack adapted to move progressively in a predetermined path, a tool adapted to act on a sole carried by said ack, means to oscillate said tool, said means being' normally inoperative, and means comprising a. clutch and a cam moving simultaneously with the ack adapted to actuate the clutch, for rendering said toolsoscillating means operative during the period in which the shank portion of a sole is in engagement with said tool.

13. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, a tool adapted to operate on a sole carried by said jack, means to oscillate said tool laterally with respect to the jack, and means for moving the jack constructed to move the jack With a relatively very slow mot-ion While the roll is in contact With the shank part of the sole and with greater speeds at other times.

14. A sole-leveling machine comprising a jack having a progressive movement in a predetermined path, a tool adapted to operate on a sole carried by said jaclgmeans to oscillate said tool laterally With respect to the jack, and means for moving the jack comprising driving and driven rotatable members engaging each other With constantly-varying lengths of lever arms and angles ofrelative movement, constructed to move the jack with a relatively very slow motion While the roll is in contact with the shank part of the sole and with greater speeds at other times.

In testimony Whereoic I have affixed my signature, in presence of two Witnesses.

HAROLD A. vWEBSTER.

Vitnesses:

E. BATCHELDER, C. F. BROWN.

Images