US1512886A

US1512886A - Heel-breasting machine

Info

Publication number: US1512886A
Application number: US358094A
Authority: US
Inventors: Elmer B Grush
Original assignee: United Shoe Machinery Corp
Current assignee: United Shoe Machinery Corp
Priority date: 1920-02-12
Filing date: 1920-02-12
Publication date: 1924-10-21
Anticipated expiration: 1941-10-21

Description

Oct. 21 1924.. 1,512,886

E. B. GRUSH HEEL BREASTING MACHINE Original Filed Feb. 12 1920 5 Sheets-Sheet 2 E. B. GRU3H HEEL BREASTING MACHINE Original Filed Feb. 12. 1920 5 s t -.sh t 5 E. as. GRUSH HEEL BREASTING MACHINE p riginal Filed Feb. 12 1920 5 Sheets-Sheet 4 Oct. 21 1924. 1,512,886

E. B. GRUSH HEEL BREASTING MACHINE Original Filed Feb. 12. 1920 5 Sheets-Sheet 5 Patented Get. 21, 1924:.

earner OFFICE.

ELMER B. GRUSH, OF BEVERLY, MASSACHUSETTS, ASSIG-NOR TO UNITED SHOE .IVIACHINERY CORPORATION, OE PATERSON, 'NEVJ JERSEY, A CORPORATION OF NEW JERSEY.

Appflication filed February 12, 1920, Serial No. 358,094/ Renewed June 7, 1923. i

which the following description, in connec-' tion with the accompanyingdrawingsfls a' specification, like reference characters on the drawings indicating like parts in the several figures.

This invention relates to machines for operating upon heels and particularly to machines for shaping the breast faces of French or Louis heels. I

The breast faces of French and Louis heels are curved longitudinally of the heel, a portion at the base of the breast extending forwardly of the shoe along the shank. T he forward edges of the base portions of such heels must be made convexto correspond be flush therewith. The breast proper of such heels, that is, the portion lying between the base portion and the tread face of the heel, is frequently curved transversely of the breast and is usually concave. Frequently, too, the portion of the breast adjacent to the toplift is concaved to a greater extent than the breast proper and at a less angle to the tread face of the toplift, the formation of this portion being known as scalloping.

An object of the present invention is to provide a machine by which the above defined portions of the heel may be formed in f the desired manner by a single operation and upon the same cutter.

A feature of the invention consistsin an organization comprising a rotary cutter and a shoe support arranged for relative movement to cause the cutter to traverse the heel from side to side of the heel with means for effecting, during said relative movement, another relative movement in such manner as to cause the cutter to form a convex face on one portion of the breast face of the heel of the shoe and simultaneously to concave another portion of the heel breast. As shown herein the cutter is ellipsoidal or egg shaped and rotates about a fixed longitudinal axis, the second relative movement as to vary the extent of the portion of the heel breast which is, convexed relatively to the extent of the portion which is concaved.

Another feature of the invention consists in means for varying the extent of said-axial movement, this adjustment causing the amount of curvature of the convexed and concaved portions of the heel breast to be varied, and particularly, causing the curvature of the convexed portion to correspond to the varying convex curves of the shanks p of different shoes. with. the transverse curve of the shanks and j A further important feature of the invention consists in an organization by which the relative predetermined position of the =heel and cutter for breasting may be changed to a relative predetermined position of the heel and cutter for effecting by said cutter a scalloping of the topliftof the heel, the change as shown being effected. -manually by a treadle.

In the illustrated construction the shoe, when positioned for the scalloping operation, is turned about the before-mentioned axis to cause the scalloping operation to be effected, the amount of turning movement being adjustably limited.

These and other features of the invention will appear more fully from the following detailed description when read in connection withthe accompanying drawingsand will be pointed out in the appended claims.

In the drawings,

Fig. 1 is a side elevation of the machine;

Fig. 2 is an enlarged viewof the upper portion of the machine shown in Fig. 1;

Fig. 3 is a detail, in. front elevation, of parts shown in Fig. 2;

A is a plan view showing the work support and cutter;

Fig. 5 is a sectional plan view of the line 55 of Fig. 2;

Fig. 6 is a sectional plan view on the line 66 of Fig. 2;

Fig. 7 is a perspective view of a heel with its breast formed by the machine in one adjustment thereof;

Fig. 8 is a view similar to Fig. 4 but with the parts 'difierently adjusted;

Fig. 9 is a view similar to Fig. 6 with the parts adjustedas in Fig, 8; a

1 0 is a perspective view of a heel the breast of which has been formed by the machine as adjusted in Figs. 8 and 9; t

Fig. 11 is a view similar to Fig. 2 showing the machine as I operated to perform the scalloping operation;

Fig. 12 is a 'detail plan view of parts as shown in Fig. '11; and

Fig. '13 is a perspective View of a'heel the breast of which has been breasted and scalloped.

Referring to Fig. 1 of the drawings, the numeral 2 indicates the column of the machine upon which is a head frame 4- provided with

bearings

6, 6 for a shaft 8 having between the bearings 6 a driving pulley 10 belted to a largepulley 12 having a shaft 14 journaled in bearings located near the base of the machine and driven from any suitable source of power. In the left-hand end of the shaft8 (Figs. f1 and 2) is a threaded socket 16Jadapted to receive the threaded end of a cutter member 18 having cutting edges which extend from the axis of the cutter at its end along the sides of the cutter' and are arranged to trace, as the cutter rotates, an egg-shaped body. The cutter accordinglylwill be referred to herein as eggshaped or ellipsoidal.

The work support includes a frame member 22 rising vertically from which are a bracket 21, carrying a plate25 toengage the tread 'faceof the heel, and a rest 26 to receive'tl1e.treacl face'of the forepart of the shoe. The plate 25 is on a block 24 which'is adjustably secured to a rearward projection 30 of the bracket 21'by a slotand bolt connection at'23; On the plate 25 is a stop for the rear end of the heel comprising a plate 34 having a V-shaped notch in its end to receive and center the rear part of the heel and to determine the longitudinal position of the shoe. The plate 34 is adjustable loi'i'gitudinally of the shoe by means of a screw 36 t'hreade'd through a lug on the plate'34 and ro'tatably held in an ear 38 formed on the plate 25, a thumb head 40 being provided to enable the screw to be "turned conveniently. Projecting through slots in the tread rest 26 are two stops 42, 4.4 which are connected together for equal and opposite adjustment by a right and left threaded screw 46 journaled in an ear 48 on the rear sideof the rest 26, a thumb head 50 being provided on the screw 46 to enable the

stops

42, 44 to be adjusted toward and from eaeh other. The frame 22 is provided with

hand holes

52, 54 into which the operator may insert his fingers while he uses his thumbs to press the last and shoe against the tread plate 25 and forepart rest 26 to hold the shoe in position to be operated upon. If the operator finds it more convenient he may, instead of putting his fingers through the

holes

52, 54, grasp the portions of the Work support which contain these holes in other ways, for instance by closing his fingers on the part at the rear of the holes.

The frame 22 is provided with a cylindrical hub portion 55 which is embraced by a two-part bearing 56, 58 on the end of a link 60, the opposite end of which is pinned to a vertical shaft 62 which forms a pivot for it. The two

parts

56, 58 of the bearing are held together in bearing engagement with the hub of the frame 22 by screws 64. The

cal portion 55, engaged by the bearing 56,

58, is a portion 7 0 formed with a segmental T-guideway which is engaged by a T-head 72 fixed to the upper end of a vertical h'ollow shaft 74. The shaft 74 is journale'd in bearings 7 6, 78 and arranged also for longitudinal movement therein. The bearings '76, 78 are connected by a rigid web 80 and are provided with

arms

82, 84. I The arm 82 of the upper bearing 76 is pivoted by a screw 86 to the slide 69 and the lower arm84is pivoted to an ear 88 formed on a depending portion 90 of the slide 69. The pivot of the arm 84 is formed by the upper end of a shaft 92 which passes through the arm 84 and is threaded into the ear 88, theshaft being in vertical alinement with the pivot 86. It will be seen that the bearings 7 6, 7 8 connected by the web 80 are movable about a vertical axis passing through the pivots '86, 92. Thecurvature of the T-head 72'and 'gui'deway -is struck from the pivot 86 as a center. The position of the bearings about thisnxis is adjustably determined at the will of the operator by a spring pin 94 mounted in-an extension 96 of the arm 82 beyofnd its-pivot 86, the spring pin 94 beingarranged to engage any one of a series'of holes 89' formedin a projection 100 of the slide'69. By 'lift-' ing the spring pin 94 by its knob 95 the op erator may swing the extension 96 in either direction and cause movement of the

bearings

76, 78 in the opposite direction about the vertical axis 86 and may place the" axis of the shaft 74 either in alinement with the axis of the hub 55 of the frame 22 or at either side of that axis for a purpose to be explained hereinafter, it being assumed for the present that the hub 55 and shaft 74 are in alinement.

A lower portion 154 of the hollow shaft 74 is of reduced size and encloses a rod 155 which is connected at its lower end by a ball and socket joint to a rod 104 which is connected to a treadle 106 pivoted at 108, so that depression of the treadle 106 will effect upward movement of the rod 155 and, by reason of an enlargement 157 of the rod 155 which engages the lower end of the portion 154, will effect upward movement of the

shaft

74, 154, and with it the upward movement of the shoe supporting frame 22 to cause the cutter to traverse the shoe from side to side of the heel. The shoe, however, is free to turn about the axis of the shaft 74 and its movement about that axis is controlled by mechanism now to be described.

On the web 80 between the bearings 76, 7 8 is mounted an adjustable cam 110 (Fig. 3) which may comprise one or more leaf springs, the ends of which are held in a recess 112 formed in the inner face of a block 114 secured at 116 to the web 80. The cam 110 is engaged centrally of its inner faceby a screw 120 threaded through the block 114 and provided with a capstan head 121. By means 'of the screw 120 the springs of the cam 110 are forced to a greater or less extent through an open side of the recess 112, the

springs or cam 110 then being in the path of a roll 122 mounted on a collar 124 (Fig. 2) fixed by a pin 125 to a rod 127 inside the hollow shaft 74; The lower end of the rod 127 rests on the upper end of the rod 155 so that when the treadle 106 is operated the shaft 74,

rods

155 and 127, and collar 124 with its roll 122, are raised together as a unit, the pin 125 engaging the upper end of the slot 129 in the hollow shaft 74, the pin lying in a slot 129 in the hollow shaft 74 to permit movement of the shaft relatively to the pin, collar 124 and rod 127, for a purpose which will later appear. Surrounding the shaft 74 is a combined compression and torsion spring 126 which is secured at one end to the collar 124 and at the other end to a collar 128 loose on the shaft 74 and having teeth on its upper face to engage corresponding teeth formed on the bearing 76. The torsional tension on the spring 126 tends to turn the shaft 74 and the shoe support to hold the roll 122 against a face 130 of the block 114 and cam 110. The tension of the spring 126 may be varied by turning the collar 128 which is provided with capstan holes for this purpose.

When the treadle 106 is depressed to move the shaft 74 longitudinally its movement will be opposed by the spring 126 which acts as a return spring for the shoe support, and during its longitudinal vertical movement the roll 122 will at first engage the face 130 of the block 114 (Fig. 3) as explained. When the shoe has reached a point such that the heel is about to be engaged by the cutter the roll 122 will reach the cam 110. As the vertical movement of-the shaft 74 continues the roll 122 will be moved to the left by engagement with the cam 110 and hence the shaft 74 will be turned at first in a clockwise direction against the spring 126, and then will be turned by the spring in an opposite or counter-clockwise direction as the roll 122 passes the top of the cam 110, carrying with it, of course, the'shoe support and shoe. Referring to F 1g. 4, it will be seen that the cam 110 causes a rocking movement of the shoe about the center of the hub 05 which coincides, in the position shown, with the axis of the shaft 74, and that, therefore, as the shoe passes the cuttersaid rocking movement will cause the portion of the breast adjacent to the toplift to be concaved, the depth of the concavity diminishing from the tread face toward the axis 55. At the same time the base portion of the heel which extends along the shank will be moved first away from the cutter and then toward it, so that in conjunction with the movement of the heel about the axis 55 tocause the breast to be concaved, there will be corresponding movement of the base portion of the heel first away from and then toward the cutter to cause the base portion of the heel to be formed with a convex curvature corresponding to the curve of the shank. The shape of the heel breast resulting from the operation of the machine as described is shown in Fig. 7. The portion of the breast at a is convex, the convexity diminishing from the shank line dcZ, where it coincides with the curvature of the shank, toward the line 6-5, and the portion 0 of the breast is concave, the concavity increasing from the line 21-?) toward the tread face of the heel. At the line bb the breast is substantially straight transversely of the heel.

The movement of the shoe and the result-- ing operations of the cutter upon the shoe may be varied and modified to adapt the machine for different conditions of work by changing the location of the axis of the shaft 7 4 with relation to the axis of the hub 55 on which the shoe support and frame 22 turn. This is effected, in the construction described, by releasing the spring pin 94 and turning the extension 96 on the axis 86 to vary the position of the shaft 74 'eccentrically with. the axis of the hub 55. From Fig. 6 it will be seen that the T-head guide 70 formed on .plane of the tread face of the heel.

will cause no displacement of the hub 55 and the work support. When, however, the work support is raised after this; eccentric adjustment has been made, rocking ofthe shaft 74 by the earn 110 will effect move ment of the shoe support about a differently located center which center, by the adjustment described, may assume various positions between the plane of the heel seat and the plane of the toplift. This results in vary-,

ingthe area of the heel which is convexed relatively to the area concaved. Thus, with the pin 94 in the lasthole at the right (Fig.- 4) a greater portion of the breast surface would be concaved and less convexed, while with the pin 94 in the opposite extreme position, as shown in Figs. 8 and 9, the surface of the breast V-FOUlfl-bfi substantially allvcone vexedexcept the breast edge of the toplift .which would be substantially straight, as

shank can be varied of course by adjusting the cam 110 to vary the amount of turning movement.

In a machine organized asshown. herein, the operator may now, whileholding the shoe on the work support in the same position, perform the operation of forming in the toplift portion of the heel breasta more pronounced concavity or scallop. The work support, as described, is mounted on the slide 69. This slide extends transversely of the machine frame in a direction parallel with the shaft 8 and rollerbearings 140 are suitably arranged in. the frame to permit free movement of the slide 69 in a horizontal direction. In the rear face, of the depending portion of the slide 69 a T-way 142 (Fig. 5) is formed in which a-T-block 144 is arranged for vertical sliding movement. On the T-block 144is a cam face 146 (Figs. 2 and ll) and the T-block 144 is connected by a rod'148 to one end of a link 150, the other end ofwhich is pivoted on the shaft 92. A member 152 ,is arranged to slide'vertically on the shaft 92 and is formed to em brace the link 150 so that vertical movement of the member 152 compels vertical movement of the link 150 and hence of the T-block 144 and cam face 146.. The reduced lower end 154 of the shaft 74 passes freely through the member 152 and the shoulder formedby the reduction rests in the upper face of the member 152. The member 152 is connected'by a rod 156 with a treadle 158 arranged beside the treadle 106 and pivoted on the sameaxis 108. When the treadle 158 is depressed the member 152 islifted, carrying Withit the shaft 74 and, of course, the work support, and sliding on the shaft '92.- At the same. time movement is imparted through the rod 148 to the cam face 146' causing it to engage a roller 160ha-ving a fixed axis on the machine frame. W'Vhen the cam face reaches the roll 160 the slide 69 is moved outwardly of the machine frame against a tension spring 162 connected be tween the. frame and the depending portion 90 of the slide. Thismovement, of course, carries the shoe away from the cutter in the direction of the cutter axis. When sufficient vertical movement has been'imparted to the shoe to bring the center of the heel breast or the longitudinal median plane of the shoe into coincidence with the cutter axis, the member 152 engages anadjustable collar 164 on the shaft 92which limits further upward movement of the shoe. In order to cause the shoe heelto engagethe cutter it is necessary to turn the shoe 'and its support onthe shaft 74, and means is provided adjustably to limit this] turning movementso that the depth-of the scalloping cut may be controlled. Forthis purpose the collar 124'is' provided with a pro-- jection 166 (Fig. 5) which is ,in position to:

engage. a stop screw 168 threaded through the web 80 and is'provided with a thumb head 170.

During vertical movement of-the shoe for the scalloping operation it is desirable that] the cam roll 122 remain at rest; to give free .100

control of turning movement, for effecting the scalloping operation, to the operator and to avoid'any possible interference with 1 that movement by engagement of the cam roll122 with its cam In the constru0- 105 tion shown the; roll will remain at restrwhen the shoe is raised by the right hand treadle 158. This is because the lifting force is applied to the shaft-74 through the member 152 andthe rod 155 in the" lower part 154110 The spring 126 tends to hold'the block124 1.15

down during elevation of the shaft 74' for the scalloping operation. After the shoe has been elevated by operation of the treadle 158, as shown in Fig. 11, the shoe may be turned clockwise to bring the heelinto: en-

gagement with the cutter, as shown in Fig. 12 the depth of the out being limited by engagement of'the lug 166 with the screw 170. The adjustment of the screw is preferably such that the scallop extends from corner to corner of the heel breast, as illustrated in Fig. 13, which shows a heel after the breasting and scalloping operations have been performed. A compression spring 172 is provided on the shaft 74 between the member 1 152 and the arm 84 to insure return movement of the cam 146 when the treadle 158 is released after the scalloping operation. The amount of longitudinal movement of the slide 69 effected by vertical movement of the shoe support may be varied by means shown in Figs. 2 and 11 where it will be seen that the inner portion of the cam face 146 of the T-block 144 is formed on the upper ends of plates 145 which are slotted and are held in place on the T bloclr 144 by a screw 147 passing freely through the slots in the plates 145 and threaded into the block 144. By loosening the screw 147 one or more of the plates 145 may be moved downwardly out of operative relation to the roll 160 and hence the amount of movement of the shoe support lengthwise of the cutter shaft effected by upward movement of the block 144 may be varied with the result that the portion of the tread face of the heel adjacent to the toplift in which the scallop is made will be located opposite different portions of the cutter. Hence a portion of the cutter may be selected which is of the shape and diameter to produce the desired form of scallop upon the heel.

Having thus described my invention, what I claim as new and desire to secure by Letters Patent of the United States is:

1. A machine of the class described having, in combination, a shoe support for l0cating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means acting during said relative movement for causing relative movement of the heel and cutter about an axis to cause the heel breast to be formed with one portion concaved and another portion convexed.

2. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means acting during said relative movement for causing relative movement of the heel and cutter about an axis located between the plane of the heelseat and the plane of the toplift to cause the heel breast to be formed with one portion concaved and another portion convexed.

8. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, and means for effecting relative movement between the sup .ort and cutter to cause relative traverse of tile shoe heel and cutter, said support being mounted for movement to turn the shoe about an axis to cause one portion of the heel breast to be formed with a convexed surfaceand another portion to be formed with a concaved surface.

A machine of the class described havmg, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means act'- ing during said relative movement to cause one portion of the heel breast to be formed with a convexed surface and another portion to-be formed with a concaved surface.

5. A machine of the class described having, in combination, ashoe support for locating a shoe and its attached heel in predetermined position, a. rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means 6. A machine of the class described hav- 1 ing, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means acting during said relative movement for causing relative movement of the heel and cutter about an axis located between the plane of the heelseat and the plane of the toplift to cause the base portion to be formed with a convexed surface, the portion next to the toplift to be formed with a concaved surface, and the portion between said portions to be formed substantially straight transversely of the heel.

7. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for efiecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means acting duringfsaid relative movement for causing relative movement of the heel and cutter about an axis located adjacent to the seat face of the heel and at a substantial disforward edge of the base portion to cause one portion of the heel breast to be concaved relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, means acting during said relative movement for causing relative movement of the heel and cutter about an axis located between the plane of the heelseat and the plane of the toplift to cause the heel breast to be formed with one portion concaved and another portion convexed, and means "for locating said axis at various points in the direction of the height of the heel.

9. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, means acting during said relative movement for causing relative movement of the heel and cutter about an axis'located between the plane of the heelseat and the plane of the toplift to cause the heel breast to be formed with one portion concaved and another portion convexed, and means for locating said axis at various points in the direction of the height of the heel, said points being in. the substance of the heel and substantially uniformly distant from the breast face of the heel.

10. A machine of the class described having, in combination, 'a shoe support. for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, means acting during said relative movement for causing relative movement of the heel and cutter about an axis located betweenthe plane of the heelseat and the plane of the toplift to cause the heel breast to be formed with one portion concaved and another portion convexed, and means for varying the relative turning movement about said axis .to cause the degree of convexity of the convexed portion to correspond to the curvature of the shoe shank.

11. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotary cutter, means for efiecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a. direction from side to side -01 the heel, means acting during said relative movement for causing relative movement otthe heel and cutter about an axis located between the plane of the heelseat and the plane of the toplift to. cause the base portion to be formed with a convexed surface and the portion next to the toplift to be formed with a concaved surface, and means for varying the location of said axis to cause the area of the concaved 5 portion to be varied.

12. A machine of the class described havconvexed surface andthe portion next to the topli'ft to be formed with a concaved surface, and means for varying the location of said axis in the direction of the height of the heel to. cause thearea of the concaved portion to be varied.

13. A machine of the class described having, in combination, a shoe support for 10- cating a shoe and its attached heel in predetermined position, a rotarycutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, and means acting during said relative movement for causing relative movement of the heel and cutter about an axis parallel to the shoe bottom and so located that relative movement of the shoe and cutter about said axis will cause the base portion of the heel to be convexed to correspond to the curve of the shank and the portion next to the toplift to be con caved. V

14. A machine of the class described having, in combination, a shoe support for 10- cating a. shoe and its attached heel in predetermined position, a rotary cutter, means for effecting relative movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, means acting during said relative movement for causing relative movement of the heeland cutter about an axis parallel to the shoe'bottom and so located that relative movement of the shoe and cutter about said axis will cause the base portion of the heel to be convexed to corre spond to the curve of the shank and the portion next to the topliftto be concaved, means for varying the location of said axis to cause more or less of the heel breast to be concaved,

lit]

, breast from side to side ofthe heel, and

means operating during said relative movement t cause the shoe toturn on an axis parallel to the heel breast and to cause the breast to be transversely fcurved.

v16. r-i machine of. the class describechhaving, in combination, a rotary cutter, a'shoe support, means for eifecting relative recheel breast from side to side of the. heel, and

means operating during said relative movement to cause a relative rotative movement of the cutter and shoe in such a manner that the breast of the heel is formed with a transverse curvature decreasing from the base of the heel. toward its tread face.

.17. A machine of the class described having, in combination, a rotary cutter having a fixed axis. of'rotation, shoe supporting means movable transversely of the cutter axis to cause the shoe to traverse the. cutter from side to side of the heel, and means'for causing the shoe to turnabout an axis adjacent to the heel breast. f' V 18. In a machine of the class described, the combination of a rotary cutter, a shoe support to locate the shoe in predetermined position,.means for .movingthe shoe prependicularlv to thecutter axis,- and means for effecting oscillation of the shoe support during such movement about an-axis parallel With its direction of movement across the cutter.

19. In a machine of the class described, the combination of a rotary cutter. a shoe sup- 7 port to locate the shoe in predetermined position, means for moving the shoe perpendicularly to the cutter axis, and means for effecting oscillation of the shoe support du ing such movement about an axis parallel with the plane of the tread face of the heel. 20.. In amachine of the class described, the

, combination of. a; rotary cutter, a shoesupport, to ]ocate the shoe in predetermined position, means for moving the shoe perpendicularly to the cutter axis, and means for effect ing oscillation of the shoe support during such movement about an axis parallel with its direction .of movement acioss the cutter and located between the plane at the ,seat -;face. and. the plane of the tread. face of the Q heel.

. 21. In a machineof-the class described, the

combination of a rotary cutter, a shoe support,movablerelatively to the cutter to cause the shoe to traverse the cutter from side to side of the heel, a link arranged substantially perpendicular to the tread face of the heel of a shoe on the support having one end pivoted to the shoe support and about which the shoe support can turn and having theother end pivot-ed at a point. fixed relatively to the shoe support and at a substantial distance from the heel, and means for causing the shoe support to turn on its pivot to the link during its-movement across the cutter about a center which may be varied relatively to the link in the direction of the height of the heel.

22. A machine of the class described having, in combination. means for locating a shoe and its attached heel in predetermined position, a rotary cutter having an axis at an obtuse angle to the tread faceof the heel of the shoe so positioned, means for moving the shoe in a direction perpendicular to the cutter axis to cause the cutter to traverse the heel. breast from side to side, and means for oscillating the shoeback and forth during its passage across the cutter to cause the breast face to be transversely curved.

23. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel, a substantially ellipsoidal rotary cutter mounted for rotation on its major axis,"

said axis being disposed at a substantially obtuse angle to the plane of the tread face ofthe shoe heel. and parallel to thelongitudinal median pane of the shoe, and means for effecting relative rectilinear movement 'With its longitudinal median plane substan- .tially horizontal, a substantially ellipsodial rotary cutter mounted for rotation. on a. horizontal axis disposed at an obtuse angle to the plane of the tread face of the heel,

and means for effectingirelative rectilinear movement between the shoe support and cutter to cause the cutter to breast theheel.

25. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attachedheel, a rotary cutter mounted for rotation on an axis disposed at a substantial angle to the plane of the tread face of the shoe and parallel to its longitudinal means for effecting relative rectilinear movement between the shoe support and cutter to cause the cutter to breast the heel, and means acting in conjunction with said relative movement to effect relative movement of the shoe and cutter about an axis parallel to the breast face of the heel to'cause the cutter to form a transversely curved. face on the heel breast.

median plane,

. I r i :1 26. In a machine ot the class ClE-BSCIlbBCt,

the combination of means for convexing the shank portion of a heel and for concaving the remaining portion of the breast of the heel, and a heel support between Which and said means there is provision for relative rectilinear movement and for movement about an axis adjacent to the heel-breast to cause said means so to operate on the heel.

27, In a m'achinebf the class described, the combination of a rotary cutter and shoe supporting means relatively movable to cause the shoe to traverse the cutter from side to side'of the heel, and means to cause a relative turning movement of the shoe and cutter about an axis adjacent to the heel breast to cause a portion of the heel to be formed With a'c'onvexed surface and a portion of the heel to be formed With a concaved surface.

28. In a machine for operating upon the heels of boots and shoes, the combination of a rotary cutter, a shaft, a heel carrier on the shaft, means for effecting longitudinal movement of the shaft to cause the breast of the heel tetra-verse the cutter, and cam operated connections acting during said 'movement of the shaft to effect turning movement of the shaft for causing the breast face of the heel to be transversely curved.

29. In a machine of the class described, the combination of a rotary cutter, shoe supporting means movable to cause the shoe to traverse the cutter from side to side of the heel, and means to cause the shoe to turn about an axis adjacent to the heel breast to cause a portion of the heel on one side of the axis to be formed with a convexed surface and a portion of the heel on the other side of theaxis to be formed with a concaved surface. 7 I r 30. In a machine of the class described, the combination of a rotary cutter, shoe supporting means movable to cause the shoe to traverse the cutter from side to side of the heel, means to cause the shoe to turn about an axis adjacent to the heel breast to causea portion of the heel on one side of the axis to be formed with a convexed sun face and a portion of the heel onthe other side of the axis to be formed With a concaved. surface, and means constructed and arranged to enable the location of said axis to be varied in the direction of the height of the heel. I

31. In a machine of the class described, the combination of a rotary cutter. shoe supporting means movable to cause the shoe to traverse the cutter from side to side of the heel, means to cause the shoe to turn about an axis adjacent to the heel breast to cause a portion of the heel on one side of the axis to be formed with a convexe'd surface and a portion of the heel on the other side of the axis to be formed with a concaved surface, and means for varying the location of said axis to vary'the areaof the surface which is convexedrelativelyto the area of the surface which is concaved. o

82. In a machine of the class desc'ribedflhe combination of a rotary cutter, a shoe support to locate the shoe in predetermined position, manual means forvmoving the shoe in a rightline perpendicularly to the cutter axis, and means acting Without attention on the part of the operator for effecting oscillation of the shoe support during such movement about an axis parallel to the direction of the manually effected movement of the shoe support.

33. In a machine of, the class described, the combination of a rotary cutter having, a curved cutting face, a shoe support to locate the shoe in predetermined position, means for moving the shoe support perpendicularly to the cutter axis to carry the [shoe 1 heel across the cutter and to cause'the cutter to form the heel with a longitudinalcurva ture, and means for moving the portioir'of the breast face adjacentfto the tread face. toward and from the cutter about 'a center located adjacent to the baseofthfe lieel.

34. In a machine of theclass described, the combination of rotary cutter having. a

curved cutting face, a shoe support, a link arranged to niaii'itain the support in predetermined relation to theend of the cutter and having one'end pivoted to the shoe support sothat the shoe support can turn, ase'gmental member on the support a slideway beneath its turning point, ashaft having fixed thereto a slide 'enga'ging said slideway, means for moving theshaft longitudinally to carry the supportacros's theciitter, means for causin 'the shaft to turnfiur-i ing its longitudinal movement, and means for positioning the shaft concentric or eccentric to the turning point of the shoe support.

35. A machine of the class described having, in combination, a shoe support for locating, the shoe and its attached heel in predetermined position, a rotary cutter having cutting edges extending from its center of rotation along its sides" and having a corn tour corresponding to the shape of the heel breast to be formed, means for effectingrelative movement betfveen the. shoe support and the cutter in a direction perpendicular to the cutter axis to cause relative traverse of the heel and cutter from side to side of the heel,

means for causing, during said relative movement, relative movement of the shoe and cutter about an axis located in the heel adjacent to its breast, and means for var yi'ng the location of said, axis in the direction of which and said means there is provision for relative rectilinear movement transversely of the shoe and for movement about an axis located between the planes of the seat and tread faces of the heel to cause said means so to operate on the heel.

37. In a machine for operating upon the heels of boots and shoes, the combination of a rotary cutter, a heel carrier, and means for effecting movement of the carrier to cause the heel to be breasted and then to cause the portion of the breast adjacent to the tread face of the heel to be concaved.

88. In a machine of the class described, the combination of means for locating a sho and its attached heel in predetermined position, a rotary cutter having an axis at an obtuse angle to the tread face of the heel of the shoe so positioned, means for moving the shoe locating means in a direction perpendicular to the cutter axis, means for arresting movement of the shoe locating means when the center ofthe heel breast is in line with the axis of the cutter, and means enabling the shoe locating means to be moved in the longitudinal median plane of the shoe to cause the cutter to form a scallop in the breast face of the heel.

39. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal median plane substantially horizontal, a rotary cutter mounted for rotation on a horizontal axis disposed at a substantial angle to the plane of the tread face of the shoe, means for effecting rectilinear movement between the shoe positioning means and the cutter to cause the cutter to breast the heel, separate means for effecting rectilinear movement between the shoe positioning means and cutter to a less extent and for effectingseparation of the shoe and cutter, means enabling the shoe positioning means to be turned to cause the cutter to treat only the portion of the breast face adjacent to the top lift, and means to limit the turning movement.

40. A machine of the class described having, in combination, means for locating a shoe and its attached heel in a predetermined position, a rotary cutter mounted on an axis at an obtuse angle to the tread face of the heel and parallel to the longitudinal median plane of the shoe, means for relatively moving the shoe and cutter in a direction perpendicular to the axis of the cutter to breast the heel, and means for relatively separating the shoe and cutter in the direction of the cutter axis, the shoe and cutter being their relatively movable about an axis parallel to the breast face of the heel to cause a further conformation to the breast face adjacent to the top lift to be effected.

4.1. A machine of the class described havin in combination, a rotary cutter having a fixed axis of rotation, shoe supporting means movable transversely of the cutter axis to cause the shoe to traverse the cutter from side to side of the heel, means for maintaining the shoe support at a fixed distance from the cutter, a shaft parallel to the direction of movement of the support transversely of the cutter on which the shoe support is mounted for turning movement, and means for varying the position of said shaft relatively to the shoe supportto vary the position of the axis of turning movement of the support relatively to the cutter. 1

42. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal median plane substantially horizontal, a rotary cutter mounted for rotation on a horizontal axis disposed at a substantial angle to the plane of the tread face of the shoe, means for effecting relative rectilinear movement between the shoe positioning means and cutter to cause the cutter to breast the heel, means acting in conjunction with said relative movement to effect relative movement of the shoe and cutter about a vertical axis to cause the cutter to form a transversely curved face on the heel breast, separate means for effecting relative rectilinear movement between the shoe positioning means and cutter to bring the longitudinal median plane of the heel into coincidence with the axis of the cutter, and means acting simultaneously with said second relative movement to effect a relative movement of separation between the heel and cutter in the direction of the cutter axis, the shoe positioning means and cutter being then relatively movable as before about a vertical axis to cause the cutter to scallop the heel. &8. A machine of the class described having, in combination, a rotary cutter, a shoe support, means for effecting relative moveinent between the cutter and support to cause the cutter to traverse the heel breast from side to side of the heel, a cam operating during said relative movement to effect another relative movement between the shoe and'cutter to cause the breast to be transversely curved, and meansfor varying the curvature of the cam.

44. A machine of the class described having, in combination, a rotary cutter, a shoe support, means for effecting relative movement between the cutter and support to cause the cutter to traverse the heel breast from side to side of the heel, a cam operating during said relative movement to cause a relative movement of the cutter and shoe in such a manner that the breast of the heel is formed with a transverse curvature decreasing from the base of the heel toward its tread face, and means for varying the ii 1,5'ias8e curvature of the cam to increase or diminish said transverse curvature. p

machine of the class described having, iii-combination, a rotary cutter having a, fixed axis of rotation, a shoe support mounted for turning movement on an axis adjacent to the heel breast and movable transversely of the cutter axis to cause the shoe to traverse the cutter-from side to side of the heel, and a cam actingduring said transverse movement to cause turing movement of the supportabout its axis.

46. A machine of the class described having, in combination, a rotary cutter having a fixed axis of rotation, shoe supporting means movable in. "a right line perpendicular to the cutter axis to cause the shoe to traversethe cutter from side to side of the heel, and means for causing th efshoe to move about a line parallel to the direction of said perpendici'ilar movement. I v 7 47. A machine of'the class described having, in combination, a rotary cutter having a fixed axis of rotation, shoe supporting means movable transversely of' the cutter axis to cause the shoe to traversethe cutter from side to side of the heel, means for causing the shoe to turn on an axis adjacent to the heel breast, and means Which may be adjusted to greater or less eccentricity to said axis to vary the position of the axis about which the shoe turns.

48. In a machine of the class described,

the combination .of a rotary cutter, a shoe support to locate the shoe in predetermined position, means for moving the shoe perpendicularly to the-cutter axis, means for effecting oscillation of the shoe support during such movement about an axis parallel with its direction of movement across the cutter, and adjustable means for varying the extent of said oscillation.

49. In a machine of the class described, the combination of a rotary cutter, a shoe support having a supporting post which is movable longitudinally relatively to the cutter to cause the shoe to traverse the cutter from side, to side of the heel, a link arranged substantially perpendicular to the tread face of the heel of a shoe on the sup port having one end pivoted to the shoe support at a point normally concentric with the post and about which the shoe support can turn and having the other end pivoted to theshoe support at a substa 'ntialdi stance from the heel, meansfor causing the shoe supporttoturn on its pivot to the linkduring its movement acrossthe cut-ter, and means con structed, and arranged to enable the post to be positifo' ed eceentrically of'the adjacent pivotof the link "for 'c'ausing movementof the shoe support about a differently located centen v i aeh of tlile'cla ss described having, combinationnimus for locatin a,

shoe and its attached heel in a predetermined position, a rotary cutter mounted; on an axis at an obtuse angle to the tread face of the heeland parallel to the longitudinal median plane of the shoe, means'for relatively moving the shoe and cutter in a direction perpendicular to the axis of the cutter to breast the heel, means for relatively separating the shoe and cutter in the direction of the cutter axis, and means for relatively moving the shoe and cutter about an axis parallel to the breast face of the heel to cause thebreast face adjacent to the toplift to be scalloped.

51. In a-Vmachine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel With itsloi'igitudinal median plane substantially horizontal, a rotary cutter mounted for rotationhon a horizontal axis disposed at a substantial angle to the plane of the tread face of the shoe, means for effecting relative rectilinear movement between the shoe positioning means and cutter to cause the cutter to breast the heel, separate means for effecting relative rectilinear movement between the shoe positioning means 'a'nd'cutter to a less extent and for effecting relative separation of the shoe and cutter, means enabling the shoe positioning means to be turned to cause the cutter totreat only the portion of the breast face adjacent to the toplift, and means to limit the turning movement. 7

52. In amachine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal medianplane substantially horizontal, a rotary cutter mounted for rotation 011 a horizontal axis disposed at a substantial angle to the plane of the tread face of the shoe, means for effecting relative rectilinear mov'en'ient between the shoe positioning means and cutter to cause the cutter to breast the hee'l, means acting in conjunction with said relative movement to effect relative movement of the shoe and cutter about a vertical axis to cause the cutter to form a transversely curved face on the heel. breast, separate means for effecting relative rectilinear movement between the shoe positioning means and cutter to bring the longitudinal median plane ofthe heel into coincidence With the axis of the cutter, and means acting simultaneously with said second relative movement to effect a relative movement of separation between the heel and cutter in the direction of "the cutter axis, the shoe positioning means and cutter being then. relatively movable before about a vertical axis to cause the cutter to scallop the heel. V

53. In a machine of the class described, the combination of means for locating a shoe and its attached heel in predetermined position, arotary cutter having a fixed axis of rotation, means for moving the shoe in a direction perpendicular to the cutter axis, means for arresting movement of the shoe locating means when the center ofthe heel breast is in line with the axis of the cutter, and means enabling the shoe locating means to be turned in the longitudinal median plane of the shoe to cause the cutter to form a scallop in the breastlface of the heel.

54. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal median plane substantially horizontal, a rotary cutter mounted for rotation on a horizontal axis, means for effecting relative rectilinear movement between the shoe positioning means and.cut-

ter to bring the longitudinal median plane of the heel into coincidence with the axis of the cutter, and means acting simultaneously with said relative movement to effect a'relative movement of separation between the heel and cutter in the direction of the cutter axis, the shoe positioning means and cutter being relatively movable about a vertical axis to cause the cutter to scallop the heel.

55. In a machine of the class described, the combination of means for locating a shoe and its attached heel in predetermined position, a rotary cutter having an extended cutting face, means for moving the shoe locating means in a direction perpendicular to the cutter axis, means for arresting the movement of the locating means when the center of the heel breast is in line with the axis of the cutter, adjustable means acting in conjunction with said movement of the shoe locating means perpendicularly to the cutter axis to locate the treated portion of the heel breast oppositedifferent portions of the cutting face of the cutter, and means enabling the shoe locating means to be moved in the horizontal median plane of the shoe to cause the cutter to form a scallop on the breast face of the heel. Y

no. In a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal median plane substantially horizontal, means for efi'ecting rectilinear movement between the shoe position ing means and cutter to locate the cutter opposite the portion of the heel breast adjacent to the toplift, means enabling the shoe positioning means to be turned to cause the cutter to treat only the portion of the breast 't'ace adjacent to the toplift, and means to limit the turning movement.

57. In .a machine of the class described, the combination of shoe positioning means for locating a shoe and its attached heel with its longitudinal median plane substantially horizontal. arotary cutter mounted for rotation on a horizontal axis, means for effecting relative rectilinear movement between the shoe positioning means and the cutter to bring the longitudinal median plane'of the heel into coincidence with the axis of the cutter, means acting simultaneously with said relative movement to effect separation between the heel and the cutter, the shoe positioning means and the cutter being relatively movable about averticalaxis to cause the cutter to scallop the heel, and. means for adjustably varying said relative movement of separation of the heel and cutter to vary thescalloping action of the cutter. T v

58. A machine of the class described having, in combination, a shoe support for locating a shoe and its attached heel in predetermined position, a rotarycutter, means for effecting relative rectilinear movement between the support and cutter to cause relative traverse of the shoe heel and cutter in a direction from side to side of the heel, said support being movable about an axis parallel to the shoe bottom and so located that relative movement of the heel and cutcutter about said axis will cause the portion of the heel next to the toplitt to be concaved, and means for varying the relative position of the cutter and support in the direction of the height of the heel.

59. In a machine of the class described,

the combination of shoe positioning means, a rotary cutter, and means for relatively moving the cutter and positioning means to cause the base portion of the heel to be convexed and thebreast of the heel to be formed with one part convexed and another part concaved.

($0. In a machine of the class described, the combination of shoe positioning means, a rotary cutter, andmeans for relatively moving the cutter and shoe positioning means to cause an intermediate portion ot the heel breast to be transversely straight and one end portion to be concaved and the other-convexed, the curvatures increasing in degree from said intermediate portion.

61. In a machine of the class described, the combination of a rotary cutter, and means for positioning a shoe arranged for rectilinear movement substantially perpendicular to the cutter axis to locate the heightwise center line of the heel breast and thecutter axis in the same plane, said positioning means and the cutter being arranged t'or relative movement about an axis perpendicular tothe cutter axis to cause the heel breast to engage the cutter.

62. In a machine of the class described, the combination of a rotary cutter having a permanently fixed axis of rotatiomand means for positioning a shoe with the height- Wise center line of the heel breast and the cutter axis in the same plane,

tioning means being arranged for movesaid poshment about an axis perpendicular to the cutter axis to cause the heel breast to engage the cutter.

63. In a machine of the class described, the combination of an egg-shaped cutter mounted for rotation on its longitudinal axis, means for positioning ahe'el,saidpositioning means being movable substantially at right angles to the cutter axis to cause the cutter axis to lie in the longitudinal median plane ofthe heel, and means permitting relative movement of the positioning means and the cutter about an axis perpendicular to the cutter axis to cause the portion of the heel breast adjacent to its tread face to engage the cutter.

64. In a. machine of the class described, the combination of an egg-sha'ped'cutter M mounted for rotation on its longitudinal axis, and means for positioning a heel mov able transversely of the cutter axis'to cause the cutter axis to lie in the longitudinal median plane of the heel, said positioning means being then movable about an axis perpendicular to the cutter axis to'cause the portion of the heel breast adjacent to its tread face to engage the cutter. V

65. In a machine of the class described, the

, combination of means for positioning the "tread face of a shoe, handles on the positioning means extending longitudinally beyond the shoe and arranged to be grasped by the operators fingers While his thumbs engage the shoe, means for operating on the shoe bottom, and means for relatively moving the positioning means and the operating means.

66.- i In a machine of the class described, the combination of positioning means against which a shoe is held by the hands of the operator, and extensions on the positioning means provided with finger holes located to receive the fingers of the operators hands While his thumbs press opposite ends of the shoe against the positioning means.

67. In a machine ofthe class described, the combination of means for engaging the fore part of a shoe, means for locating the heel of the shoe, and a handle extending beyond the rear part of the shoe in position to be grasped by the fingers of the operators hand While his thumb presses the rear part of the shoe against the heel locating means.

68. In a machine of the class described, the

combination of positioning means against 'tvhich a shoe is held by the hands of the operator, and handles onthe positioning means extendingbeyond each end o't' the positioned shoe and arranged to be grasped by digit-s of'the operators hands While other digits hold the shoe agai'nstthe positioning means.

69. In a machine of the class described, the combination of means for positioning the heel of a shoe longitudinally and laterally, means for engaging the tread face-of the forepart of the shoe, and a handle extending becombination of means for positioning the tread face of a shoe, handles on. the positioning means extending longitudinally beyond the shoe and arranged to be grasped by the operators fingers While his thumbs engage the shoe, a cutter for operating on the heel breast, and means for relatively movingthe positioning means and'the cutter to cause the cutter to operate on the heel. i

71. In a machine ot the class described, the combination of positioning means against which a shoe is held by the hands of the operator, extensions on the positioning means provided with. finger holes located to receive the fingers or the operators hands while his thumbs press opposite ends of the shoe against the positioning means, a rotary cutter, and means for relatively moving the positioning means and the cutter to cause the cutter to operate ontheshoe heel.

72. In a machine of the class described, the combination of means for engaging the forepart of a'shoe, means for locating the heel of the shoe, a handle on the locating means extending beyond the rear part of the shoe in position to be grasped by the fingers of the operators hand While his thumb presses the rear part of the shoe against the heel locating means, and av rotary cutter, said 10- cating meansbeing movable by the handle to cause the heel to-engage the cutter.

7 3. In a machine of the class described, the combination of positioning means against which a shoe is held by the hands of the operator, handles on the positioning means extending beyond each end of the positioned shoe and arranged to be grasped by digits of the operators hands While other digits hold the shoe against the positioning means, and a rotary cutter, said positioning means being movable about an axis perpendicular to the cutter axis to cause the heel to engage the cutter.

74. In a machine of the class described, the combination of a rotary cutter, means for positioning the heel of a shoe longitudinally and laterally with respect to the cutter out of contact therewith, means for engaging the tread face of the forepart of the shoe, and a handle extending beyond the forepa-rt in position to be grasped by the operators fingers While he holds the shoe rotary cutter on a stationary axis, and a-shoe support movable to bring the shoe into the field of action of thecutter to cause the heel to be breasted, said support being also movable about an axis adjacent to the heel to cause the cutter to follow the curve of the shank. I

76. In a machine of the class described, the combination of a rotary cutter, a shoe support arranged to receive a shoe with the plane of its bottom substantially perpendicular to the axis of the cutter, a slide for the support, a treadle connected to the slide for moving the support toward the cutter in one direction, and means operating as an incident to'movement of the slide for moving the support longitudinally of said outter axis.

77. In a machine of the class described, acutter on a horizontal axis, a shoe support mounted for movement perpendicular to the cutter axis and in a plane parallel to said axis, means for moving the support perpendicular to said axis, and means operating as an incident to said movement to move the support longitudinally of the axis away from the cutter, the shoe support and cutter being then relatively movable in a plane parallel to the cutter axis to effect action of the cutter to scallop the breast of the shoe heel.

78. In a machine of the class described, a cutter on a horizontal axis, a shoe support arranged to turn on an axis perpendicular to the cutter axis and movable longitudinally of said cutter axis, and means for effecting relative movement of the support and cutter in a plane parallel to the cutter axis to effect operation of the cutter on the heel breast of the shoe.

79. In a machine of the class described, the combination of a rotary cutter, shoe positioning means arranged for rectilinear movement in two directions, one parallel to the cutter axis and the other perpendicular thereto, means for moving the positioning means toward the cutter in the direction per pendicular to its axis, and means acting as an incident to said movement for moving the positioning means in the direction parallel to the cutter axis.

80. In a machine of the class described, the combination of a rotary cutter, shoe positioning means arranged 'for rectilinear movement in two directions at right angles to each other and for rotation about an axis perpendicular to the axis of the cutter, means for moving the positioning means toward the cutter in one of said directions perpendicular to the cutter axis, and means acting as an incident to said movement to move the positioning means away from the cutter in the other direction longitudinally of the cutter axis, the positioning means being turnable on its axis when so located to effect action of the cutter on the shoe.

81. In a machine of the class described, the combination of a rotary cutter on an axis having a fixed location, a shoe positioning means movable perpendicularly to said axis and parallel to the direction of said axis and rotatable on an axis perpendicular to the cutter axis, means for moving the positioning means perpendicularly to the cutter axis, and means operating simultaneously to move the shoe positioning means parallel to the direction of the cutter axis, said positioning means being then movable on its axis to cause the shoe to be presented to the cutter to effect a scalloping operation on the breast of-the heel.

In testimony whereof I have signed my name to this specification.

ELMER B. GRUSH.