US2055544A - Fastening-inserting machine - Google Patents

Description

Sept. 29, 1936. o. L. LAWSON FASTENING INSERTING MACHINE Original Filed May 11, 1933 4 Sheets-Sheet 1 Sept. 29, 1936. Q LAWSON 2,055,544

FASTENING INSERT ING MACHINE Original Filed May 11, 1933 4 Sheets-Sheet 2 K 36 FigJZ. @M'

Sept. 29, 1936. o. LAWSON FASTENING INSERTING MACHINE Original Filed May 11, 1933 4 Sheets-Sheet 3 Sept. 29, 1936. Q LAWSON 2,055,544

FASTENING INSERTING MACHINE Original Filed May 11, 1935 4 Sheets-Sheet 4 l h I: h uuuuu I WVEAWUH. gtlQ. Mn RR mq Hu mhm 55 as feed rolls, are arranged to feed fastening mavariable amount more than they already are. As

Patented Sept. 29, 1936 2,055,544

UNITED STATES PATENT OFFICE 'FASTENING-INSERTING MACHINE Oscar L. Lawson, Lynn, Mass, assignor to United Shoe Machinery Cpmpany, Paterson, N. J., a corporation of New Jersey Original application May 11, 1933, Serial No. 670,525. Divided and this application August 31, 1934, Serial No. 742,333

45 Claims. (01. 120) This invention relates to machines for insertt rial to the c p ratin members a d s ing fastenings and is herein illustrated as responding to the position of the guiding membodied in a lasting machine of the progressive ber relatively to the inclined surfaces of the cotype including in its organization means for formoperating e b In order to insure that the 5 ing and driving staples to fasten the upper of a length of feed will at all times be equal to the shoe in lasted position, this application being a length of material used form the fastening the division of a copending a he ti s i illustrated machine is further provided with an 670,525, filed May 11, 1933. It i t b d abutment in engagement with one of the costood, however, that the invention is not limited Operating members d against W c he free to machines of the particular type herein sh end of fastening material is brought to a stop. 10 or to lasting machines. In the illustrated machine the staple is formed The invention, in one aspect, provides a n0ve1 in one location by the relative movement of an a on of means comprising, in combi inside former and an outside former which acts tion with staple-driving means, means f r formto bend the severed length of wire around the 5 ing a staple having the ends of its legs deflected inside former and then to transfer the staple into away from each other to cause the legs of th the driver passage formed in a staple-guiding staple in the driving operation to be deflected by member from Which it is driven y the driver of the work in paths leading away from each other the maehine- AS the Staple is formed s to anchor them in the work. An object thus in Werdiy deflected ends are engaged y the S d View in the machine illustrated is the securing 0f the Outside 80 that the legs f the Staple of the upper of a shoe in lasted relation to a as a Whole are bent far enough to nv sole or insole (hereinafter sometimes referred to Ward their ends- When Such Staples are driven generically as the sole) by staples which anchor h staple legs tend to follow v r n rv themselves within the sole without the use of a paths in the Work and the depth to Which t clenching anvil. Preferably, as herein illusstaple is driven in the Work, as Well as the 2:; trated, the staples are formed from a continuous tanee b we its legs, is dependent p the length of material such as wire, and important angle at Which the ends of the Staple e s St features of the invention are to be recognized in the work. It is desirable to vary the depth to an organization comprising means for bending which the staple is driven into the work in acthe opposite end portions of a length of wire cordance with the length of the staple and the 30 presented thereto and for severing the wire adthickness of the work, so that the staple e J'acent to one of the bends and means for formmay be deflected by the work in such curved ing the severed length of wire into a staple. In paths as to anchor them without entirely penethe construction shown, the wire-bending and trating through the work. If the staple is driven severing means comprises different pairs of relinto the work in the condition in which it is 3 atively movable cooperating members. These formed it will penetrate the work only a commembers are arranged to engage and bend the paratively small distance by reason of the relaend portions of the length of wire toward the tively small angle at which the ends of the staple same side of the wire, after which the wire is legs strike the work and the legs will be deflected 40 severed adjacent to one of the bends. comparatively far apart. If, however, the legs 40 Preparatory to the operation of the wire-bendof the staple as a whole are deflected farther ing and severing means the wire is fed into potoward each other before they enter the work the sition between the cooperating members which, nearer the deflected ends of the staple legs are as shown, are provided with oppositely inclined brought together the greater will be the angle surfaces and are arranged to sever different between the ends of the legs and the surface of 45 lengths of wire for staples of different lengths. the work into which the staple is to be driven In order to prevent waste of fastening material and accordingly the greater will be the distance the construction is such that the length of feed to which the staple is driven into the work and of the fastening material is equal to the length the less will be the distance that the legs will be of material used to form the fastening. For the apart after the drive. For the purpose in view 50 purpose in view the machine herein shown is there is provided, as herein shown, means arprovided with an adjustable member for guiding ranged to extend within the driver passage fastening material to the above-mentioned (30- formed in the staple-guiding member for deflectoperating members, and means herein illustrated ing the legs of the staple toward each other a illustrated, this means comprises a pair of fingers the ends of which are arranged to be adjusted to extend more or less within the driver passage to vary the amount of deflection of the staple legs and thus to vary the distance between their ends at the time when they enter the work and the depth to which the staple is driven into the work. Conveniently, spring means is provided for holding the fingers in adjusted position, the fingers being thus yieldable in the driving operation to permit the staple and the driver to pass. Although the invention is herein illustrated as arranged to insert fastenings in such a manner that the fastenings do not entirely penetrate the work, it is to be understood that the ends of the fastenings could, if desired, pass entirely through the work.

The novel features of the invention, including various novel details of construction and combinations of parts, will now be more particularly described with reference to the accompanying drawings and pointed out in the claims.

In the drawings,

Fig. l is a view in front elevation of the head of a machine embodying the present invention;

Fig. 2 is a view in side elevation on an enlarged scale of a portion of the head of the machine shown in Fig. 1 including the fastening-forming and inserting mechanism;

Fig. 3 is a view in front elevation of the fastening severing and forming instrumentalities, some of the parts being shown in section on the line III-III of Fig. 2;

Fig. 4 is a section on the line IVIV of Fig. 1 showing the mechanism for determining the length of the fastenings;

Fig. 5 is a view in front elevation of the mechanism for guiding fastening material to the bending and severing means;

Fig. 6 is an exploded view showing the relation of the guide for the fastening material to the means for bending and severing the material;

Fig. '7 is a bottom view of the staple-guiding nozzle of the machine showing the fingers for deflecting the legs of the staple;

Fig. 8 is an exploded view of the means for bending the free end of the fastening material;

Fig. 9 is a view on an enlarged scale of a staple formed by this machine;

Fig. 10 is a detailed view on an enlarged scale of parts shown in Fig. 7;

Fig. 11 is a section on the line XI-XI of Fig. 3 showing the positions of the parts of the fastening-bending and severing mechanism when the machine is at rest;

Fig. 12 is a view similar to Fig. 11 but showing the positions of the parts at the conclusion of the bending and severing operations;

Fig. 13 is a sectional view illustrating the positions of the parts shown in Figs. 11 and 12 at the conclusion of the staple-forming operation;

Figs. 14 to 18, inclusive, illustrate different successive positions of the upper-pulling, fasteninginserting and work-positioning instrumentalities in the operation of the machine upon a shoe having a ribbed insole;

Fig. 19 shows a portion of a turn shoe the upper of which is secured to a shouldered sole by staples formed and driven by the present machine; and

Fig. 20 is a section on the line XX-XX of Fig. 19 illustrating the manner in which the staple is anchored in the work.

The invention is herein illustrated as applied to a lasting machine of the type disclosed in Letters Patent No. 1,796,451, granted March 1'7, 1931, on an application of George Goddu, and therefore only such features of the general organization as it is necessary to refer to for an understanding of the invention will be mentioned in detail and these features will be referred to only in brief terms.

To assist the operator in determining the proper relation of the shoe to the lasting instrumentalities of the machine there is provided a guide member or shoe rest 38 which is adapted to engage the outer or bottom face of an insole and the inside face of a lip or rib on the insole. The shoe rest 3% is mounted at the front of the machine and may be yieldingly mounted if so desired. The upper is pulled heightwise of the last, as shown in Fig. 15, and then inwardly over the margin or feather of the insole, as shown in Fig. 16 by a gripper comprising a pair of cooperating jaws 32. An overlaying or pressing member 34 (Fig. 2) comprising a staple-guiding nozzle is moved in a direction inclined toward the bottom face of the insole to lay the margin of the upper over the feather of the insole and against the lip and while the upper is thus held clamped against the lip a staple is driven by a driver 36 to fasten the upper to the lip at a point adjacent to the body portion of the insole, the legs of the staple being deflected by the work, as hereinafter more particularly described, in curved paths such as to anchor them in the insole without penetrating the inner face of the lip or the face of the insole in engagement with the last.

In order to provide ample room for manipulation of the shoe and for the operation of the gripper the staple-forming mechanism (which will hereinafter be described in detail) is so constructed and arranged as to form a staple in a location out of alinement with the staple driver 36 and above the path of movement of the driver. The machine is provided with means for transferring the staple downwardly into alinement with the driver between staple-forming and driving operations. For forming the staple there is provided an inside former 33 (Fig. 2) supported on a stationary bracket at secured to the head of the machine by a cap screw 42. The rest of the staple-forming mechanism and the means for transferring the staple from forming position to driving position, with the exception of the wirecutting means, are carried by a slide 44 to which the staple-guiding nozzle 34 is secured by a stud 16 and nut 41', this slide being mounted for reciprocating movement in an inclined guideway in the head of the machine. The slide is moved along its guideway through connections to a cam as clearly shown and described in the Letters Patent above referred to.

Secured to the bracket 49 in fixed relation to the inside former 38 is a wire-guiding nozzle 48 (Figs. 2 and 3) to which wire is fed by means hereinafter described, the wire being advanced until its free end engages an abutment or stop 50 secured by a screw 52 to a member 54 pivotally mounted at 5% (Fig. 8) on a bracket 58 secured to the head of the machine. The member ii l is provided with a laterally extending arm 60 to which there is connected a spring 62 which acts yieldingly to hold the abutment 50 in engagement with a member 64 (hereinafter more particularly referred to). The wire is fed forwardly over a guiding member 66 (Figs. 2, 5, and 6) supported on the forward end of the movable slide 44 which, as hereinbefore stated, carries the member 34 for, laying the upper inwardly over the insole and for guiding the staple as it is driven. The guiding member 66 is provided with upwardly extending portions 68, it! which are provided with rearwardly extending slots which receive the wire and which position the wire in proper relation to wirebending and cutting means. The position of the slots in the upstanding portions 68, 10 relatively to the bending and cutting or severing means determines the length of wire which is to be severed, the wire-feeding means being correspondingly adjusted through. connections which will later be described. The member 66 slides in a guideway formed in an upward extension '52 of the nozzle 34 (Fig. 2) and is provided with a pin 14 to which is connected mechanism for maintaining the member 6% in adjusted position as will also later be fully described. The upwardly extending portions 68, it are spaced apart to receive the inside former and are shaped to prevent interference with stationary parts of the wire-cutting and staple-forming mechanism.

lvliounted on the stationary bracket 40 in front of the wire coming from the nozzle 48 is a wirecutting knife 35 which is provided with a cutting edge i8 (Fig. 6) inclined at a substantial angle to the vertical and with a cutting edge 80 which is perpendicular to the wire and which operates when very short staples are to be made. The member 32 cooperates with the knife 16 to sever the wire and to deflect one end while the members and til deflect the other end in a manner which will later be made apparent. The cutting edge E8 is inclined in order that different portions of the edge will be effective depending upon the length of the piece of wire to be severed. As stated above, the length of the wire severed by these cooperating members is dependent upon the position of the slots in the upstanding portions 68, ll) of the member relatively to the cutting edges 18, 80 of the knife "it and to portions of the stop or abutment it being necessary that the wire-feeding mechanism be properly adjusted to feed the proper length of wire. To this end connections between the member (56 and the wire-feeding mechanism are provided as will be later described.

The members 64 and 82, above referred to, are mounted on the upward extension I2 of the nozzle rearwardly of the member 66 and prior to the wire-severing operation are located just rearwardly of the stationary cutting knife 16, as best shown in Fig. 11. The member 82 is provided with projections 84, 38 (Fig. 3) which cooperate with the cutting edges 18, 8(), respectively, of the knife 56 to sever a length of wire which subsequently is formed into a staple. The projections 84, 88 are beveled (Figs. 3, 11 and 12) so that the wire is first bent and then cut as it is forced against either the cutting edge 18 or the cutting edge 80 of the knife 16. Thus a deflected point or end is formed on that end of the severed length of wire.

The abutment or stop 53 is provided with a stepped or serrated portion 99 (Figs. 3 and 8) the general inclination of which is substantially the same as the cutting edge 18 of the wire cutter 16 but in the opposite direction. The abutment B is also provided with a substantially vertical portion 92. The end of the wire is fed through the slots in the upstanding portions 63, ID of the guiding member 66 and against either the stepped portion at or the vertical portion 92 of the abutment as. The member 64 is provided with a projection having an inclined portion 94 and a vertical portion Q6. The member 54 is located forwardly of the stepped portion 99 and the vertical portion 92 of the abutment 50 and has an upper face which is inclined in the same direction as and is flush with the top of the stepped portion 90, and also a shoulder 98 (Figs. 11 and 12) extending laterally of the vertical portion 92. When the member 64 moves forwardly the end of the wire is therefore caught between the member 54 and either the portion 94 or the portion 96 of the member 64 which portions are beveled so that the end of the wire is bent toward the same side of the wire as the bent or deflected point of the other end of the severed length of wire. As the end of the wire is bent or deflected the member 54 yields more or less lengthwise of the wire against the resistance of the spring 62 (Fig. 12) in response to pressure of the wire against it to permit the end of the wire to pass. This operation takes place at the same time that the other end of the length of wire from which the staple is to be formed is bent. Fig. 12 clearly illustrates the positions of the various parts of the wire-cutting and deflecting mechanism at the conclusion of the bending and severing operations.

In the operation of the wire cutting and defiecting or bending mechanism. the wire is accordingly fed through the wire guiding nozzle 48, through the slots in the upstanding portions 68, 15 of the wire guiding member 56 and against the abutment at. The slide rid which carries the cutting and deflecting members 82 and 54 then moves in a direction toward the operator to bend the wire as above described and then cuts a piece of wire from the length of wire adjacent to the bend made in the wire by the members 32, It. Further movement of the slide 4? causes an outside former lilil carried thereby to engage the piece of wire and bend or shape it about the inside former 38. A staple W2 is thus formed with the ends of the staple legs deflected outwardly away from each other in the general plane of the staple (Fig. 13), and because the outwardly deflected ends are engaged by the sides of the outside former in the forward movement of the latter, the staple legs as a whole are bent far enough to converge toward their ends. The staple IE2 at this time is in a position to be transferred to the driver passage in the nozzle 3d, and it is thus transferred by downward movement of the outside former IUE! in the manner described in Letters Patent No. 1,796,- 451 hereinbefore referred to.

At the same time that the staple I02 is being formed the nozzle 34, secured to the slide 44, is being moved toward the shoe which is being lasted, the upper U of the shoe having been gripped and pulled by the lasting pincers 32. The lasting pincers are first given an upward movement to tension the upper (Fig. 15) and are then moved inwardly (Fig. 16) to draw the upper over the insole S, whereupon the nozzle 34 engages the upper to lay the upper over the margin of the insole. It is to be noted that the nozzle 34 presses the upper closely into the angle between the lipRof the insole and the feather or margin of the insole, and guides the staple I02 in such a path that it is driven very close to the base of the lip R. During these operations the shoe rest 36 engages the bottom face of the insole and the inner face of the lip R. close to the base of the lip, thereby resisting the pull of the pincers 32 and acting as a gage for the work. The operation of the lasting pincers 32 and the staple-inserting instrumentalities described just above is substantially the same as in the Letters Patent above-mentioned, to which reference may be had for a more detailed description of the construction and operation of these parts.

The staple i 02 is transferred from the position in which it was formed to the driver passage at the end of the movement of the nozzle 34 and prior to the operation of the driver. The mechanism contained within the nozzle 34 for determining the depth to which the staple m2 is to be driven into the work will now be described. The nozzle 34 is provided with a driver passage 59-; which receives the staple E62 and acts as a guide for the driver 36. As best shown in Figs. 7 and 10, which are bottom views of the nozzle with the cover removed, a pair of fingers me, m8 located in recesses in the bottom of the nozzle 34 extend into the driver passage NM. The forward ends of the fingers its, Hi8 are urged toward each other by springs H5, H2 which bear against the nozzle 36 at opposite sides thereof and against the rear ends of the fingers. As illustrated, the fingers E66, E08 are pivoted to the nozzle 34 at H4 and H6, respectively. The forward ends of the fingers are spaced apart by a block i it which is located between the fingers E33, N33 and above the driver passage in the nozzle 35. This block is arranged to be moved toward and away from the end of the nozzle, thereby varying the distance between the ends of the fingers. The block M8 is secured to one end of a sliding bar lit which is connected at its other end to an eccentric on a shaft E22 provided at its outer end with a handle i 2 by means of which the shaft lEZ may be turned to move the block H8 toward or away from the end of the nozzle 34. The fingers W3, I58 by engagement With the ends of the staple legs act to bend or deflect them farther toward each other to determine the distance between the ends of the legs of the staple at the time when they enter the work, It will be understood that in the driving operation the fingers H28, H58 yield to permit the wider portion of the staple and the driver to pass.

As above stated, the deflection of the legs of the staple I532 by the fingers Hit, 68% determines the depth to which the staple is to be driven. For example, if the stock into which the staple is to be driven be relatively thin the legs of the staple will be deflected toward each other only a very small distance, but if the staple is to be driven into relatively thick stock the legs will be deflected toward each other to a substantially greater degree. This is because of the fact that nearer the bent or deflected ends of the legs of the staple are brought together the greater will be the angle between the deflected ends of the staple and the surface of the work into which they are to be driven and, accordingly, the deepor the staple will be driven into the stock and, conversely, the greater the distance between the bent or deflected ends of the staple the less distance the staple will penetrate into the work. It is desirable that the fingers 558 be adjusted to deflect the legs of the staple so that the ends of the legs will not penetrate the entire thickness of the work. As shown most clearly in Fig. 20, the ends of the staple legs are deflected by the Work in such directions that the staple legs are turned outwardly away from each other and away from the crossbar of the staple and follow curved paths in the work located substantially in the general plane of the staple.

When the nozzle completes its movement toward the shoe to force the marginal portion of the upper closely into the angle formed by the feather of the insole and the rib shown in Fig. 17, the driver 3% is thrust forwar ly under the influence of a spring to drive the staple into the work. The ends of the staple legs strike the work at an angle and are deflected outwardly, as above described. The lasting pincers 32 in the meantime released the upper and have returned to their original position. The nozzle or overlaying member is then retracted and the parts of the machine are in position to begin another cycle of operations.

Although the invention is illustrated as embodied in a machine particularly adapted to attach uppers to a lip or projection on an insole, it is apparent that the machine may well be used to secure uppers to insoles of other types of shoes where it is desirable that the fastening should not penetrate through the work. Referring now to Figs. 14 to 18, inclusive, it will be noted that the staple M32 is driven into the lip or projection on the insole very close to the base of the lip and, in fact, the staple is anchored in the lip adjacent to the body of the insole without penetrating through the lip. The staples being thus driven into the lip or projection adjacent to the body of the insole act to hold the overlaid margin of the upper flat upon the feather of the insole without substantially any relaxing of the lasting strain or distortion of the lip or projection of the insole after the lasting instrumentalities have been removed. The desired angle between the overlaid margin of the upper and the lip of the insole is thus maintained, thereby insuring the best results from the succeeding operations upon the shoe. In operating upon shoes having shouldered insoles of the type. shown in Fig. 19, the staple N32 is anchored in the body portion of the insole without penetrating through the insole, as shown in Fig. 20. Among the advantages as applied to this type of shoe the channel flap will lie close against the insole and produce a smooth bottom by reason of the absence of any portion or portions of the staples in the inside channel of the insole. Substantially the advantages apply to the manufacture of turn shoes where the shoe is lasted with the upper wrong side out and then after being stitched is turned right side out. The channeled surface of the sole then becomes the inside tread surface which is relatively smooth because of the absence of staples in the channel.

The machine is provided with mechanism for feeding wire I25 to the wire-cutting and stapleforming mechanism. A reel E28 (Fig. l) for carrying a coil of wire is supported on a bracket 536 secured to the head of the machine. The wire G25 is fed over an idler roll E32 and over a toothed feed roll I35, the wire being held against the toothed feed roll I34 by a roll E36 which is spring urged toward the roll 5 34. From the feed rolls the wire is fed through a tube 538 to the wire guiding nozzle 48. The feed roll l34 is operated by a pawl and ratchet mechanism through a link Mil and a bell crank lever M2 provided with a roll Md engaged by a cam MB. In order to stop the feed of the wire, if desired, there is provided a finger which may be turned by a handle l52 into position to engage a face I54 on the lever I42 and thus to hold this lever in such a position as to prevent it from being operated by the cam M8. The operation of the wire-feeding mechanism thus far described is the same as in the Letters Patent above referred to.

In order to control the length of feed of the wire in accordance with the desired length of the staples, the machine is provided with mechanism which Will now be described. As previously stated, the length of the staples is dependent upon the location of the slots in the upstanding portions 68, ID of the member 66 relatively to the inclined portions 18, 90 of the wirecutting and deflecting mechanism. The member 56 is provided with the previously mentioned pin M which is connected to one end of an extensible link I56 (Figs. 2 and 4) through a disk I58 provided with a slot I60 into which the pin extends. The disk I58 is fast on one end of a shaft M32 which is mounted in a bearing formed in a block I64 secured to the nozzle 34. The other end of the shaft I62 is secured to one end of the link I56. The other end of the link I56 has pivoted thereto a block I66 which is slidably mounted in a guideway IB'I formed in a member I68 (Figs, 1 and 4). The member .38 is mounted to slide vertically in a guideway formed in the head of the machine, a plate I'IU secured to the head of the machine being provided for holding the member I68 in the guideway. The slidable member I68 is provided with a vertically disposed series of holes in any one of which a pin H2 may be placed. The pin I12 by engagement with the plate at the upper end of a slot I'M in the plate or by engagement with an adjustable screw I15 threaded into the lower end of the plate limits movement of the member I68 in either direction. Themember I58 is connected to one arm of a bell crank lever H6, pivoted to the head of the machine at I18 by means of a pin and slot connection Hill, I82, the lever I16 being provided with a second arm I84 by means of which it may be swung about its pivot to move the member 68 in its guideway between the limits determined by the engagement of the pin H2 with the plate I'Iil or the screw M5, the friction between the parts holding them in the positions into which they are moved by the bell crank lever I16. This movement of the member I68 acts through the link I55 to rotate the shaft H52 and the disk I58. Rotation of the disk I58 acts through the pin and slot connection M, I60 to raise or lower the wire-guiding member 66. In addition to controlling the heightwise position of the member t movement of the bell crank lever I'lB controls the length of feed of the wire. The member I68 is connected to a bell crank lever I85 (Fig. 1) by a pin I88 which fits into a slot I91 formed in one arm of the bell crank lever. The other arm of the bell crank lever I 83 is provided with a cam surface I92 which engages a cam roll I94 mounted on one arm of the bell crank lever M2. The cam surface I92 is so formed that as swinging move ment in a counterclockwise direction (Fig. 1) is imparted to the bell crank lever I86 by upward movement of the member I68 a swinging movement in a clockwise direction will be imparted to the bell crank lever I42 against the resistance of a spring (not shown) to move the cam roll I44 away from the cam I46. In other words, the position of the bell crank E86 determines the amount of lost motion between the cam roll 5M and the cam I46, thus determining the length of feed of the wire. It should be noted that through the connections above described the length of feed of the wire and the position of the slots in the upstanding portions I58, it! of the guiding member 65 relatively to the cutting instrumentalities are adjusted at the same time through movement of the bell crank lever H6. This affords a quick adjustment to vary the lengths of the staples as may be desirable, for example, in lasting with longer staples in the shank portion of the shoe than along the fore part. It will be evident also that if the pin H2 is shifted into a diiferent hole in the member I68 the two staples produced will be either longer or shorter as a result of such shifting.

It will be evident that, as the upper is pulled inwardly over the insole by the gripper 32 and is additionally forced inwardly by the overlaying or pressing member 34, considerable force is applied to the shoe, tending to displace it laterally or in a direction transverse to its height. The shoe is normally held against displacement by engagement of the shoe rest 30 with the lip of the insole and in part also by such friction as there is between the insole and the lower end face of the shoe rest due to the upward pressure of the shoe against the shoe rest as the operator holds and supports the shoe. In order to insure against any possible danger under some conditions of distortion of the insole lip by too great a strain thereon or of such displacement of the shoe relatively to the shoe rest 30 as to result in the driving of a staple or staples in improper relation to the lip, as well as to relieve the operator of the necessity of exercising any special care in holding the shoe in such manner as to guard against these results, the machine herein shown is provided with a member I96 which is moved intermittently into and out of engagement with the insole at a location near the shoe rest 30 and has sharp prongs to penetrate the insole, as fully disclosed in the previously mentioned application of which this application is a division.

In the use of the machine on a shoe having a lipped insole the operator presents the shoe with the lip of the insole in engagement with the work rest 30, starting preferably at the forepart of the shoe adjacent to the previously pulled over toe portion of the upper, and then treadles the machine and holds the treadle depressed while moving the shoe lengthwise, thus lasting the shoe progressively from the toe end to the heel end. If the shoe is one having a shouldered insole, or if it is a turn shoe having a shouldered sole, the shoe is presented with the member 30 in the inside channel of such an insole or sole. In each cycle of operations the grippers are first moved downwardly and outwardly from the position shown in Fig. 14 to grip the upper; then upwardly and outwardly to tension the upper and then inwardly over the feather or margin of the insole. During the cycle of operations a staple is formed and transferred into the driver passage in the nozzle or overlaying member 34 by mechanism previously described. The overlaying member 34 is moved forwardly from the position shown in Fig. 14 to the position shown in Fig. 17 to lay the upper against the lip and the margin or feather of the insole. When the overlaying member is in the position shown in Fig. 17, the staple in the driver passage is driven into the work close to the base of the lip R. and as the staple is driven its legs are deflected by the work in opposite directions to anchor them in the lip without penetrating entirely through the lip, as hereinbefore described. If the staple is driven into a shoulder of the sole or insole (Fig. 19) its legs are anchored in the body of the sole or insole by the deflection thereof in opposite directions without entering the inside channel. The parts of the machine are thereafter returned to starting positions ready to begin another cycle of operations upon the shoe.

The novel method of lasting herein disclosed and the product of the method are claimed in another divisonal application Serial No. 742,334, filed August 31, 1934.

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

l. A fastening-inserting machine having, in combination, means for driving a staple, means for bending the ends of a length of staple material, and means for forming from the length of stape material a staple having the ends of its legs deflected away from each other by such bending to cause the legs of the staple to follow diverging paths in the work.

2. A fastening-inserting machine having, in combination, means for severing from fastening material a piece to form a staple and for bending the material in locations at the ends of said piece, and means for forming said piece of material into a staple having the ends of its legs deflected away from each other by such bending.

3. A fastening-inserting machine having, in combination, means for feeding fastening material, means for severing from said fastening material a piece suitable for a staple and for bending the material in locations at the ends of said piece prior to the severing operation, and means constructed and arranged to form said severed piece of fastening material into a staple having the ends of its legs deflected away from each other by such bending.

4. A fastening-inserting machine having, in combination, means arranged to feed fastening material, means for severing from said fastening material pieces of different lengths suitable for staples and for bending the material in locations at the ends of each piece of material, and means constructed and arranged to form each severed piece of fastening material into a staple having the ends of its legs deflected away from each other by such bending.

5. A fastening-inserting machine having, in combination, means for bending fastening mate rial and for severing said fastening material adjacent to the bend to form a piece of material having a deflected end, additional means for bending the material at the other end of said piece, and means for forming said severed piece into a staple having the ends of its legs deflected away from each other by such bending.

6. In a fastening-inserting machine, means for bending a strip of fastening material in diiferent locations simultaneously, and means for forming from said strip of fastening material a staple having the ends of its legs deflected by such bending.

'7. In a fastening-inserting machine, means for bending fastening material in locations at the opposite ends of a piece from which a staple is to be formed, a member for engaging the intermediate portion of said piece of material, and means for bending said piece of material around said member to form a staple having the ends of its legs deflected outwardly away from each other in the general plane of the staple by such bending.

8. In a fastening-inserting machine, means for bending fastening material in locations at the opposite ends of a piece from which a staple is to be formed, an inside former arranged to engage the intermediate portion of said piece of material, and an outside former arranged to cooperate with said inside former to form a staple having converging legs with the ends of the legs diverging from each other as a result of such bending.

9. In a fastening-inserting machine, means for forming a bend in the end of a continuous length of fastening material, means for forming a second bend in the fastening material in predetermined relation to said first named bend and for severing the fastening material adjacent to the second bend, and means for forming the severed length of fastening material into a staple having the ends of its legs diverging from each other as a result of such bending.

10. A fastening-inserting machine having, in combination, means for forming a bend in a continuous length of fastening material and for severing said fastening material adjacent to the bend to form a strip of material having a deflected cnd, means for bending the other end of the length of fastening material prior to the severing operation, and means for forming said strip into a staple having the ends of its legs deflected away from each other in the general plane of the staple by such bending.

11. A fastening-inserting machine having, in combination, staple-forming means comprising an inside former and an outside former arrange to bend a piece of fastening material around said inside former to form a staple, means for feeding fastening material to said staple-forming means, and means for thereafter bending the material in locations at the opposite end portions of a piece to be operated upon by said inside and. outside formers and after the bending operation severing the piece from the continuous length of fastening material.

12. In a fastening-inserting machine, means for providing a piece of fastening material with opposite' ends deflected both in the same direction, an inside former, and an outside former arranged to cooperate with said inside former to form a staple from said piece of material and by engagement with said deflected ends to bend the legs of the staple into positions in which they are inclined inwardly toward each other.

13. A fastening-inserting machine having, in combination, means for driving a staple, means for forming a staple having at the ends of its legs faces so inclined relatively to the direction in which the staple is driven as to cause said legs to be deflected away from each other by engagement of the work with said faces, and mechanism constructed and arranged to bend the legs of the staple toward each other a variably determined amount before they enter the work and thus to determine variably the distance between the legs after they have been deflected by the work.

14. In a machine for inserting fastenings, the combination with shoe-positioning means, of

ieans for fastening the upper of a shoe to a sole, said fastening means comprising staple-driving means and mechanism for bending the ends of a strip of fastening material presented thereto and for forming a staple from said strip of fastening material having the ends of its legs diverging from each other to cause the legs of the staple to be deflected by the work in curved paths leading away from each other in the general plane of the staple when the staple is driven into the sole.

15. In a machine for inserting fastenings, the combination with fastening-inserting means and means for feeding fastening material, of an abutment against which the end of the fastening material is fed, means for forming a bend in the fastening material at a distance from said end and for severing the fastening material adjacent to the bend, means for bending the end of the fastening material in engagement with th abutment, and means for forming the severed length of fastening material into a fastening having its work penetrating ends deflected away from each other by such bending to cause the ends of the fastening to follow diverging paths when inserted into the work.

16. In a machine for inserting fastenings, the combination with fastang-ii'iserting m ans, and means for feeding fastening material, of cooperating members for forming a bend in the fastening material and for severing the material adjacent to the bend to form a length of fastening material having a deflected end, means for deflecting the other end of the length of fastening material toward the same side of the material as flrstnamed end, and means for forming said severed length of fastening material into a fastening having its ends deflected in such manner as to cause them to follow curved paths leading away from each other when inserted into the work.

17. A fastening-inserting machine having, in combination, a stationary member having an inclined cutting edge, means for feeding fastening material past said stationary member, a movable member arranged to form a bend in the fastening material and then to sever the fastening material adjacent to the bend by forcing it against said cutting edge, an abutment member arranged to engage the free end of the fastening material to determine the limit of its feeding movement, means for bending the free end of the fastening material to form a length of fastening material having deflected ends, and means for forming said length of fastening material into a staple.

18. A fastening-inserting machine having, in combination, a stationary member formed to provide a fixed cutting edge, means for feeding wire past said stationary member, a movable cutter cooperating with the stationary member to form a bend in the wire and then to sever the wire adjacent to the bend by forcing it against said cutting edge, an abutment arranged to act as a stop for the free end of the wire to determine the limit of its feeding movement, means for also bending the free end of the wire, and mechanism for forming the severed length of wire into a staple having the ends of its legs deflected outwardly away from each other by such bending.

19. A fastening-inserting machine having, in combination, means for feeding fastening material, an abutment member arranged to engage the free end of the fastening material to determine the limit of its feeding movement, means for bending the free end of the fastening material, a member having a cutting edge, means cooperating with said member to form a bend in the fastening material and to sever the material adjacent to said bend, thereby providing a length of fastening material having its ends deflected toward the same side of the material, means for forming said severed length of fastening material into a fastening having work penetrating ends diverging from each other as a result of such bending, and means for driving the fastening into the work.

20. A fastening-inserting machine having, in combination, a stationary member formed to provide a fixed cutting edge, means for feeding fastening material past said stationary member, movable cutter cooperating with said stationary member to form a bend in the wire and then to sever the wire adjacent to the bend by forcing it against said cutting edge, an abutment arranged to act as a stop for the free end of the Wire to determine the limit of its feeding movement, 2. pair of members arranged to engage and to bend the free end of wire, one of said members being movable with the cutter and the other of said members being displaceable lengthwise of the wire in the bending operation in response to pressure of the wire against it to permit the end of the Wire to pass it, and means for forming the severed length of wire into a staple having the ends of its legs deflected outwardly away from each other by such bending.

21. A fastening-inserting machine having, in combination, means for feeding fastening material, an abutment arranged by engagement with the free end of the fastening material to determine the limit of its feeding movement, a support for said abutment provided with a. shoulder, a member movable relatively to said abutment for bending the free end of the material by forcing it past said shoulder, said support being arranged to yield lengthwise of the wire in response to pressure of the wire against it to errnit the end of the wire to pass it, means for forming another bend in the fastening material and for serving the fastening material adjacent to the bend, means for forming the severed length of fastening materail into a staple, and means for driving the staple into the work.

22. A fastening-inserting machine having, in combination, means for feeding fastening ma- .terial, an abutment arranged by engagement with the free end of the fastening material to determine the limit of its feeding movement, a support for said abutment provided with a shoulder, a member movable relatively to said abutment for deflecting the free end of the fastening material by forcing it past said shoulder, a member having a cutting edge, a member cooperating with said cutting member to form a bend in the fastening material and then to sever the fastening material adjacent to said bend by forcing it against said cutting edge, means for forming said severed length of fastening material into a staple, and means for driving the staple into the work.

23. A fastening-inserting machine having, in combination, means for feeding fastening material, an abutment arranged to engage the free" end of the fastening material to determine the limit of its feeding movement, a support for said abutment provided with a shoulder, a member movable relatively to said support for bending the free end of the fastening material by forcing it past said shoulder, a member having a cutting edge, means cooperating with said member to bend the fastening material and to sever the fastening material adjacent to said bend to form a length of fastening material having its ends deflected toward the same side of the fastening material, means for forming said severed length of fastening material into a staple having the ends of its legs diverging from each other to cause the legs of the staple to follow curved paths in the work, and a driver for inserting the staple into the work.

24. A fastening-inserting machine having, in combination, means for feeding fastening material, an abutment arranged to engage the free end of the fastening material to determine the limit of its feeding movement, means for bending the free end of the fastening material in engagement with said abutment, a member having a cutting edge, means cooperating with said member to bend the fastening material and then to sever the fastening material adjacent to said bend to form a length of fastening material having its ends deflected toward the same side of the material, means for forming a staple from said severed length of fastening material having the ends of its legs deflected outwardly away from each other to cause the legs of the staple to follow curved paths in the work, means for driving the staple into the work, and means arranged by engagement with the staple legs to determine the distance between the deflected ends of the legs at the time when they enter the work and thus to determine the depth to which the staple is driven into the work.

25. A fastening-inserting machine having, in combination, means for feeding fastening material, means for bending the ends of a length of fastening material presented thereto and for severing the length of fastening material adjacent to one of said bends, means for forming said length of fastening material into a staple having the ends of its legs diverging from each other to cause the legs of the staple to follow curved paths in the work, means arranged to engage said staple legs as the staple is driven and to deflect them toward each other to vary the distance between the ends of the staple legs at the time when they enter the work and thereby to vary the depth to which the staple is driven into the work, and means for driving the staple into the work.

26. A fastening-inserting machine having, in combination, means for feeding fastening material, means for bending the opposite end portions of a length of fastening material presented thereto and for severing said length of fastening material adjacent to one of the bends, means for forming said severed length of fastening material into a staple having deflected ends, a staple nozzle having a guiding passage therein, a pair of adjustable fingers extending into said passage to engage said staple legs and to deflect them toward each other to vary the distance between the ends of the legs at the time when they enter the work, said fingers being arranged to yield to permit the staple to pass, and means for driving the staple into the work.

27. A fastening-inserting machine having, in combination, an adjustable member for guiding fastening material, cooperating members comprising different pairs having oppositely inclined surfaces arranged to form bends in the fastening material and to sever from the fastening material adjacent to one of the bends a length suitable for a fastening, and means arranged to feed fastening material to said cooperating members variable distances corresponding to diflerent positions cf the guiding member relatively to the inclined surfaces of said cooperating members.

28. A machine for forming fastenings having, in combination, means for bending fastening material and for severing said fastening material adjacent to said bend, adjustable means for guiding the fastening material to the bending and severing means, the position of the guiding means relatively to the bending means being variable in accordance with the length of fastening material to be severed, means arranged to bend the other end of the severed length of fastening material, and means for forming the severed length of fastening material into a fastening having its work penetrating ends deflected away from each other to cause the ends of the fastening to follow curved paths when inserted in the work.

29. A machine for forming fastenings having, in combination, means for severing a length of fastening material, means for guiding the fastening material to said severing means, said guiding means being constructed and arranged to be adjusted relatively to said severing means in accordance with the length of fastening material to be severed, and feeding means cooperating with said guiding means to feed the fastening material a distance corresponding to the position of said guiding means relatively to the severing means.

30. A machine for forming fastenings having, in combination, means for bending fastening material and for severing the fastening material adjacent to said bend to form a length of fastening material having a deflected end, means for bending the other end of the severed length of fastening material, means for guiding the fastening material to said severing means, and means for feeding the fastening material a distance corresponding to the position of said guiding means relatively to the severing means.

31. A machine for forming fastenings having, in combination, a pair of cooperating members having a pair of inclined edges for bending fastening material and for severing said fastening material adjacent to said bend, a second pair of cooperating members arranged to bend the other end of the severed length of material, and means for forming said severed length of fastening material into a staple having the ends of its legs deflected away from each other to cause the legs of the staple to follow curved paths when inserted in the work.

32. A machine for forming fastenings having, in combination, means for forming a fastening having work-penetrating ends diverging from each other to cause the ends of the fastening to follow curved paths when inserted in the work,

means constructed and arranged to be adjustably positioned relatively to said forming means for guiding fastening material to said forming means, and means for feeding fastening material to the forming means, the length of feeding movement of said feeding means corresponding to the position of the guiding means relatively to the forming means.

33. In a fastening-inserting machine, means for feeding fastening material, means for severing from said fastening material pieces of different lengths suitable for staples, means for forming each severed piece of fastening material into a staple, a member movable between opposite him its to vary the lengths of said pieces, and a single means for varying simultaneously the limits of movement of said member.

34. In a fastening-inserting machine, means for forming staples of varying lengths, wire-feeding means for feeding wire from which to form the staples, wire-severing means for severing from said wire pieces of different lengths suitable for staples, a member movable between opposite limits to vary the lengths of said pieces for producing staples of different lenghs for use in different portions of the work, means for effecting a quick adjustment of said member, and adjustable means for varying simultaneously the limits of movement of said member.

35. In a fastening-inserting machine, means for forming staples of variable lengths, wire-feeding means for feeding wire from which to form the staples, wire-severing means having a cut-- ting edge inclined relatively to the path of feed of the wire, a member for guiding the wire to said wire-severing means, and a device for adjusting the wire-guiding member to position the wire in different relations to said inclined cutting edge depending upon the lengths of the staples o be formed and for also adjusting said wirefeeding means to vary the length of its feeding movement in accordance with the adjusted position of the wire-guiding member.

36. In a fastening-inserting machine, means for forming staples of variable lengths, wirefeeding means for feeding wire from which to form the staples, wire-severing means having a cutting edge inclined relatively to the path of feed of the wire, a guide for the wire adjustable to position it in different relations to said inclined cutting edge depending upon the length of staple to be formed, and mechanism for correspondingly adjusting the wire-feeding means to vary the amount of its movement.

37. In a fastening-inserting machine, means for forming staples of variable lengths, wire-feeding means for feeding wire from which to form the staples, wire-severing means having a cutting edge inclined relatively to the path of feed of the wire, an abutment arranged to serve as a stop for the end of the wire and generally inclined in divergent relation to the incline of said cutting edge, a guide for the wire adjustable to position it in variable relation to said cutting edge and abutment depending upon the length of the staple to be formed, and connections for adjusting said wire-feeding means with said guide to vary correspondingly the amount of its feeding movement.

38. A fastening-inserting machine having, in combination, means for forming a staple having laterally deflected ends, a staple guiding member having a driver passage therein, means extending within the driver passage for deflecting the legs of the staple toward each other, and means for driving said staple.

39. A fastening-inserting machine having, in combination, means for forming a staple having legs with laterally deflected ends to cause the legs to be spread apart by contact with the work, a nozzle having a driver passage therein, a pair of adjustable fingers extending into said passage to deflect the staple legs toward each other to vary the distance between their deflected ends at the time when they enter the work and thereby to vary the depth to which the staples are driven into the work, and means for driving said staples.

40. A fastening-inserting machine having, in combination, means for forming a staple having legs with laterally deflected ends, a staple guid ing member having a driver passage therein, a pair of fingers arranged to be adjusted to extend variably within said driver passage for deflecting the legs of the staple toward each other to vary the angle at which their deflected ends strike the work and thus to vary the depth to which the staples are driven into the work, and means for driving said staples.

41. A fastening-inserting machine having, in combination, means for forming a staple having legs with laterally deflected ends, a staple guiding member having a driver passage therein, a pair of adjustable fingers extending into said driver passage for deflecting the legs of the staple toward each other, said fingers being arranged to yield to permit the staple to pass, and means for driving said staple.

42. A fastening-inserting machine having, in combination, means for forming a staple having legs with laterally deflected ends, a staple guiding member having a driver passage therein, a pair of fingers spring-urged into said driver passage for engaging the legs of the staple and deflecting them toward each other to vary the dis tance between the ends of the staple legs at the time when they enter the work and thus to vary the distance to which the staples are driven into the work, a member arranged to engage said fingers to determine the distance between the ends of the fingers, and means for driving said staples.

43. A fastening-inserting machine having, in combination, means for forming a staple having legs with laterally deflected ends, a nozzle having a driver passage, a pair of fingers mounted on said nozzle and having the ends extending into said driver passage for deflecting the legs of said staple toward each other, a manually operated member for adjusting the positions of said fingers transversely of said driver passage to determine the amount of deflection of the staple legs toward each other and thus to vary the dis tance between their deflected ends at the time when they are driven into the work, and a driver for inserting said staple.

44. A fastening-inserting machine having, in combination, means for driving a staple, means for forming a staple having at the ends of its legs faces so inclined relatively to the direction in which the staple is driven as to cause said legs to be deflected away from each other by engagement of the work with said faces, and members arranged to act by engagement with the ends of the staple legs in the staple-driving operation to bend the legs toward each other a variably determined amount and thus to determine variably the distance between the legs after they have been deflected by the work.

45. A fastening-inserting machine having, in combination, means for forming a staple with the ends of the staple legs deflected away from each other to cause the legs to be spread apart by contact with the work, a nozzle having a driver passage therein, a pair of fingers pivotally mounted on said nozzle and having ends extending within said passage for deflecting the staple legs toward each other, means for swinging the fingers about their pivots in directions to move their staple-engaging ends toward or from each other to vary the amount of deflection of the staple legs and thus to vary the depth to which the staples are to be driven into the work, and a driver for driving the staples into the work.

OSCAR L. LAWSON.

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