US1253121A - Machine for setting blind eyelets. - Google Patents

Description

J. W. BARNA.

MACHINE FOR SETTING BLIND EYELETS. APPLICATION FILED APR-20. 1914. RENEWED MAR. 13. 1916.

1 fi 1 g 1; Patented Jan. 8, 1918.

4 SHEETS-SHEET I.

J. W. BARNA.

MACHINE FOR SETTING BLIND EYELETS. APPLICATION FILED APR. 20. I914. RENEWED MAR. I3. 1916.

L w m1. Patented Jan. 8,1918,

4 SHEETS-SHEET 2.

Fry. 2

J. W. BARNA.

MACHINE FOR SETTING BLIND EYELETS.

APPLICATION FILED APR. 20. 1914. RENEWED MAR. I3, 1916.

Patented Jan. 8, 1918;

4- SHEETS-SHEET 3.

1. w. BARNA. MACHINE FOR SETTING BLIND EYELETS. APPLICATION FILED APR. 20. I914- RENEWED MAR. 13-1916. I llfifi llglu Patented Jan. 8, 1918.

4 SHEETSSHEET 4 J32 Man far 21/2: waswasi' Unitar an snares Parana oinaron.

JOSEPH W. BARNA, OF CHICAGO, ILLINOIS, ASSIGNOR, BY MESNE ASSIGNMENUES. Kilt) UNITED SHOE MACHINERY CORPORATION, OF PATERSON, NEW 3 A t'lOlt-"tlPO-= RATION OF NEW JERSEY.

MACHIENE FOR. SET'EIDl'C-Z- BLIND Application filed April 20, rare, Serial No. 833,071.

To all wiwm it may concern.

Be it known that l, Josnrrr W. BARNA a citizen of the United States, residing at Chicago, in the county of Cool; and State of llllinois have invented certain new and useful Improvements in Machines for Setting Blind Eyelets, of which the following is a specification, reference being had therein to the accompanying drawing.

This invention relates to machines for setting eyelets or other fastening devices in sheet material and more particularly to machinesfor setting blindor invisible eyelets in the uppers of boots and shoes.

in setting invisible the outer part of the upper is perforated and the eyelets are set in the lining or stay in register with the holes in the outer part of the upper. lin setting blind eyelets the operation is reversed and the eyelets are set in the outer part of the upper in register with holes punched through the lining or stay. An object of the present invention is to provide a machine by which the operations incident to setting either blind or invisible eyelets may be carried out with im proved accuracy and certainty.

An important feature of the invention consists in the combination with a tubular punch for perforating one of two superposed layers of material, of a punch and die for perforating the other layer, and devices forsetting an eyelet in the hole thus formed in one layer. A machine organized in this,

manner may be utilized to punch holes in the two layers of material of the diameters best suited to the characteristics of each piece. For example, a relatively small hole may be punched in the part in which the eyelet is to be inserted and under these circumstances the holding of the eyelet is improved. The punch and die may also be utilized advantageously in perforatlng the textile material which is often found in one part or the other of a shoe upper.

As herein shown an anvil 1s provided which serves the combined functions of a cutting block for the tubular punch, a

punching die for the solid punch and an upsetting die for clenching the eyelet. lit isbelieved that aidevice of this character has not been used heretofore in eyeleting machines. llts advantages in point of sim- Specification of Letters Patent.

eyelets in a shoe upper clutch 23'controlled by the Patented Jan.

Renewed March 13, 1916. serial No. plicity of construction and compactness will be apparent.

These and other features of the invention will be best understood and appreciated from the following description of a pre ferred embodiment t ereof selected for purposes of illustration and shown in the accompanying drawings, in which,-

Figure l is a view in side elevation of a machine exemplifying my invention;

Fig. 2is a similar view of the machine taken at its opposite side;

Fig. 3 is a view in front elevation of the machine;

Fig. 4: is a detail vertical sectional view of the lower punching and setting tool;

Fig. 5 is a detail View of the feeding aws and associated parts;

Fig. 6 is an inverted plan view of the anvil showing its under face;

Fig. 7 is a sectional view on the line 3 -7 of Fig. 6 showing the anvil turned over in its normal position;

Fig. 8 is a detail view showing the raceway and operating tools advanced somewhat from their initial positions as shown in Figs. 1 and 3;

Fig. 9 is a similar View showing the same parts in subsequent intermediate positions;

Fig. 10 is a similar view showing the same parts in their final positions at the conclusion of a setting operation;

Fig. 11 is a detail plan view of the anvil and feeding jaws with the latter shown in a second position by dotted lines;

Fig. 12 is a view partly in top plan and partly in section showing the feeding jaw standard and its shifting mechanism in their initial position; and

' Fig. 13 is a similar view of the same parts as in Fig. 12 showing them in their second position. v

The machine frame comprises a base from which project a pair of standards and 26 connected at their upper ends by a horizontal portion 27. A'second pair of standards 21 projecting from the base are provided with bearings for the main shaft 22 which is driven from a pulley through a operator through to the connecting a tracl: or guide comprises a vera treadle rod 24. Secured portion '27 of the frame is 28 for the raceway which tically disposed flange or bar 29 and raceway track 32. The raceway is provided at its upper end with a reservoir (not shown) the lever against the periphery of the cam and consequently to move the raceway rearwardly into inoperative position at the proper'time.

The connecting portion 27 of the frame is provided with vertical bearings for a plunger 39 which carries at its upper end the solid punch 48 and the eyelet inserting die 43. The plunger 39 is connected at its lower end to an arm 40 pivoted at 36 to the machine frame and connected between its ends to a cam follower 41. The arm 40 is oscillated through the follower 41 by a cam 42 on the main shaft 22, see Fig. 1.

The plunger 39 is provided in its upper end with a bore in which is received'the shank of the lower or eyelet carrying set'43. The set 43 has a centrally disposed passa e for the punch 48 which also acts-as a spindle to take an eyelet from the raceway and hold it in position upon the set. The upper end of the set is provided with a concave surface 50 to fit the flange of the eyelet. The body of the set 43 is shouldered and rests upon the upper end of the plunger 39 being retained in place by a set screw 45. A compression spring 46 is arranged in the bore of the'set 43 beneath the punch and acts normally to holdthe punch in itsv uppermost position.

Within the spring 46 is a post or 'stop 47 which is arranged to engage the end of the punch 48 positively after the latter has been depressed for a predetermined distance.

The spring 46 is strong enough normally to force the punch through the work but yields to allow the set to rise along the punch to insert theeyelet when the.u ward movement of the punch is arrested y the anvil.

However, in case the spring is not sufliciently stifi to force the punch through the work the post 47 will positively advance the punch to efl'ect the punching operation. The distance between the top of the post 47 and the lower end of the punchis substantially equal to the length of the eyelet barrel.

The punch 48 is reduced in diameter at its upper end thus providing a shoulder 49 adapted to engage with the underside of the anvil through which its upper reduced end may freely pass. The diameter of the unch 48 above the surface 50 of the set is su stans tially equal to the interior diameter of the eyelet barrel so that the latter will be accurately held in place during its insertion.

53 which acts as a punching die ing to punch the hole in the lining art 3 of the upper in which the eyelet is to e set.

On the lower face of the anvil there is formed an upsetting surface 55 which is disposed concentrically with respect to the passage 53 through the anvil. The inner annular edge 54 of the upsetting surface constitutes a shearing ed e which cooperates with the punch 48 as will be apparent from Fig. 7.

The upper face of the anvil about the openin of the passage 53 acts as a. cutting block or a tubular punch 57 which is arranged for movement above the anvil in the forward end of a lever 61. The punch 57 is provided with a lower cutting edge 58 adapted to be forced through the outer or leather part w-of the upper in punching the lacin passage. The interior diameter of the punc 57 is substantially the same or slightly larger than the diameter, of the passage 53 in the anvil. The arrangement is such that the they are discharged at its upper end through 0 an opening 59 in a hollow adjustin screw 60. The tubular punch 57 is ad ustabIy mounted in the free end of the .levcr 61 pivoted upon a stud 62 to the machine frame and being secured at its rear end by a stud 63 to the upper arm 64 of a cam follower 65 which surrounds a cam 66 on the shaft 22. The tubular punch 57, the anvil passage 53 and the solid punch 48 are all brought into alinement in the operating movement of the two punches so that in a single continuous operation the lining part 3 of the upper will unchings formed I be punched, an eyelet will,be set in a hole 1 thus formed in the linin and a lacing passage hole will be punche in the outer part a: of the upper above and in alinement with the eyelet.

The work is 'fed after each eyeleting operare set but a short distance from the margin of the quarter. The jaws 67 and 68 are carried upon the free ends of a pair of crossed arms 69 pivotally mounted at 70 upon the upper end of a laterally oscillating carrier member 71 which in turn is pivoted to the base 20 upon a pin'72. The carrier member 71 is therefore adapted to be moved laterally in a direction to advance the work across the anvil. The free end of each arm 69 is pivoted to one end of one of a pair of links 73 and the free ends of these links are pivoted at 74 to the upper end of a spring arm 75 secured by bolts 76 to a rockin lever 77. The lever 77 is pivoted at 78 to Ere oscillating carrier 71 so that it partakes of the lateral movement of the latter. The upper end of the arm 75 is swung forwardly into position to open the jaws by a torsion spring 79 which encircles the pivot 78 and is connected to the arm and to the oscillating carrier 71. The arm 75 is drawn rearwardly when the lever 77 is moved forwardly by the action of a cam 80 on the shaft 22 which is arranged to wipe against the roller 81 mounted in a rearwardly extending portion of the lever 77. lit will thus be seen that the jaws 67 and 68 are closed upon the work when the arm 75 is drawn rearwardly and when the cam 80 passes 0d the roller 81 the spring 79 immediately moves the arm 75 forwardly into the position shown in Fig. l to open the jaws. The cam 80 is timed to permit the edges to be closed after each punching inserting operation and to hold them closed during the feedin of the work which is effected by the osciTlation of the pivoted carrier.71. The carrier 71 is normally held against the machine frame and with the feeding jaws adjacent to the anvil by a spring 82 which acts upon a projection 71' indicated near the base of the carrier. The carrier" is guided in its movement by a pair of laterally extending flanges 83 which are secured to the frame.

The carrier 71 is given its feeding movement by a reciprocating wedge member 84 which is mounted between the frame and the member 71 upon a swinging arm 85. The arm 85 is pivotally mounted upon the base 20 and held against the cam 86 on the shaft 22 by a spring 87. At each revolution of the cam 86 the wedge is forced forwardly and acts to swing the carrier member 71 outwardly so that the feeding jaws are carried away from the anvil. This movement of the carrier 71 is timed to take place while the jaws 67 and 68 are closed upon the work as already explained. The wedge 84; is moved reversely to permit the jaws to be returned to initial position while the jaws I are held open and while the work remains 'at rest.

In order to regulate the extent of the an adjustable arm 88, see Figs. 12 and 13 which is pivoted on a pin 89 to the upper end oftlie actuatingarm 85. By swinging the arm 88 up and down toward the pivot of the carrier 71 the throw of the carrier may be varied. The arm 88 is arranged to be held in adjusted position by a pin 90 which passes through an elongated slot 91 in the arm and into a series of spaced holes 92 on the frame 26. Tn order to insure a uniform action of the wedge on the carrier 71 in all adjusted positions of the former the carrier 71 isprovided with a rearwardly extending plate 93 having its edge arranged in the path of the wedge and on a curve and the center of which is the point of contact of the arm 85 and the cam 86. In order to make the carrier 71 more quickly responsive to a short movement of the arm 84 the arm is provided upon its under face with a bevel 94c widening downwardly so that the effect of the movement of the arm is increased when the arm has moved toward the pivot of the carrier 71 and vice versa. The roller 81 is elongated sufficiently to be engaged by the cam'80 in all lateral positions of the carrier 71.

A presser footor stock clamp 95 is arranged to be reciprocated in the horizontal portion 27 of the frame in line with the under side of the anvil 51 in order to clamp the lowermost part of the work against the anvil while the feeding jaws are moving reversely. At its lower end the stock clamp is pivoted to the end of a curved link 96 which in turn is pivoted at its rear end upon a stud 97 in the standard 25. The link 96 is oscillated in one direction by a cam 99 on the shaft 22 and in the other direction by a spring 98. It will be apparent from Fig.

2 that the spring 98 acts to elevate the link 96 and so move the clamp 95 into operative position and the cam 99 positively depresses the clamp. A treadle rod 101 is connected to the link and affords means by which the operator may depress the clamp away from the upper in presenting the work.

11 edge gage 102 is adjustably mounted in the upper end of the clamp 95 and extends rearwardly toward the raceway where it is provided with an upwardly extending projection. This projection forms a gage against which the edge of the material may be held in order to determine the distance of the eyelet line from the edge of the work.

In operation the work is presented to the machine with the part in which the eyelets are to be set beneath the anvil 51 and with the point at which the first eyelet is to be set in alinement with the punches 48 and 57. The machine is then set in operation whereupon t-heraceway is at once advanced toward delivering position and the plunger 39 is elevated to carry the punch 48 into the endmost eyelet of the raceway. The raceway is then retracted leaving the eyelet to seat itself upon the set 48 and in the continued upward movement of the plunger 39 the punch 48 is forced into the punching die passage 53 of the anvil thus perforating the lower layer of the work. Meanwhile the tubular punch 57 is forced downwardly against the upper surface of the anvil and the upper layer of the work is perforated. The plunger 39 continues to move upwardly advancing the punch 48 through the passage 53 and thus forcing the punchings into the bore of the tubular punch 57 When the shoulder 49 of the punch 48 encounters the openingof the passage 53, thepunch is arrested and the set 4.3-continues to advance inserting the eyelet barrel through the part 3 of the work and clenching its barrel against the upsetting surface 55 of the anvil. The punches are then retracted and the feeding operation immediately takes place after which the parts are returned to initial position in readiness to begin a new cycle of operations.

The operation of the machine has been described in connection with setting blind or invisible eyelets but it will be understood that many features of the invention may be utilized to good advantage in fastener setting machines of general application.

Having thus described my invention, I claim as new anddesire to secure by Letters Patent 1. A machine for setting blind or concealed eyelets having, in combination, a support for a shoe upper comprisin a lining part and an outer part, a tubu ar punch for perforating one part, a solid punch constructed and arranged to form in the other part a smaller hole than that formed in the first part, and setting devices for setting an eyelet in the hole formed by the solid punch.

2. In an eyeleting machine, thecombination with a stationary anvil having oppositely disposed faces and a passage surrounded by an upsetting surface on one side i of the anvil, of a punch having a set for an eyelet on the same side of the anvil as the upsetting surface, a tubular cutter on the other side of the anvil in line with said passage, means to move the punch into the anvil-passage and the punch-set toward the upsetting-surface to upset an eyelet, and means for moving the tubular cutter into engagement with the anvil outside the passage.

3. In an eyeleting machine, the combina tion with a stationary anvil having upper and lower faces and a passage surrounded by an upsetting die on its lower side, of a punch having aset for an eyelet below the anvil, a tubular cutter above the anvil, means to move the punchinto the anvil-passage and the punch-set toward the die to upset an punch having a set for an eyelet disposed v below the anvil, a tubularpunch disposed above the anvil, a shaft having a pair of cams, connections from one of the cams to the punch to move the punch into the anvilpassage and the punch-set toward the die to upset an eyelet, and connections from the other cam to the tubular punch for moving the tubular punch toward the anvil.

.5. In an eyeletino: machine, the combination with an anvil having oppositely disposed faces and a passage, a cutting-edge on one face of the anvil around the passage, an upsetting surface on the same face of the anvil around the cutting-edge, of a punch having a set for an eyelet on the same side of the anvil as the upsetting surface, means to move the punch into the anvil-passage and the punch-set toward the upsetting surface to upset an eyelet, a tubular punch on the other side of the anvil, and means for moving said punch against the other face of the 'edge on the lower face of the anvil around the passage, an upsetting die formed on the lower face of the anvil around the cuttingedge, of a tool having ayielding solid punch and a set for an eyelet disposed below the punch, means to move the punch into the anvil-passage to punch a hole in the stock and the punch-set toward the die along the punch to upset an eyelet in said hole, a tubular punch above the anvil, and means for moving the tubular punch toward the upper face of the anvil.

7. In an eyeleting machine, the combination with an anvil having upper and lower faces and a passage forming a punching die at the lower face of the anvil, an upsetting, die on the lower face of the anvil around the opening of the passage, of a tool having a barrel provided at its end with a set for an eyelet, a spring in the barrel, a punch having a head on the spring and its body extended beyond the end of the barrel and punch to move the punch-set toward the die to upset an eyelet, a tubular punch above the anvil, and means to move said latter punch against the upper face of the anvil.

8. In a machine for setting blind or inill) till

tilt

is fed,

visible eyelets, a tool for punching a hole in one of two superposed layers of sheet material, means for punching a second hole in the other of said layers, and means for inserting an eyelet through the second hole and clenching the eyelet before the removal of the tool from the layer first mentioned.

9. A machine for setting blind or concealed eyelets, having, in combination, a stationary horn extending toward the rear of the machine and adapted to support an upper with its stitched lacing edge in engagement with the end of the horn and the attached parts of the upper disposed upon opposite faces thereof, means for punching alined holes in the two parts of the upper while so supported by the horn, and means for inserting an eyelet in the hole in one part of the upper.

10. In an eyeleting machine, an anvil having an upsetting die, a set movable toward and away from said die and having a punch movable into and out of the plane of the anvil, of work feeding means including a pair of co-acting jaws adjacent the anvil, a revolving shaft, a cam on the shaft, means operated by the cam to close the jaws after the punch is withdrawn from the plane of the anvil, a wedge operated by the shaft to move the jaws away from the anvil after their closure to feed the work, a spring to open the jaws after their feeding movement,

and a spring to return the jaws tial position at the anvil.

11 an eyeleting machine, the combination with a stationary anvil, a tubular punch cooperating with the anvil to cut a lacing passage hole in a layer of stock on the upper face of the anvil, and a tool coiiperating with the anvil to punch a hole in another layer of stock on the lower face of the anvil and to set an eyelet therein.

12. In an eyeleting machine, the combination with a stationaryanvil, a tubular punch cooperating with the anvil to cut a'lacing passage hole in a layer of stock on one side of the anvil, a tool cooperating with the anvil to punch a hole in another layer of stock on the other side of the anvil and to set an eyelet therein, of a pair of jaws disposed adjacent the anvil, a shaft, means operated by the shaft to close the jaws on the stock after the tools have operated thereon, and means operated by the shaft to feed the stock on the anvil.

13. In an eyeleting machine, the combination with a stationary anvil, a cutter cooperating with the anvil to cut a lacing passage hole in a layer of stock on the upper face of the anvil, a tool cooperating with the anvil to punch a hole in another layer of stock on the lower face ofthe anvil and to set an eyelet therein, of a pair of jaws at the side of the anvil toward which the stock a shaft, means operated by the shaft to their inito close the jaws on the stock after the cutter and punch" have operated thereon, means operated by the shaft to feed the stock on the anvil, and means to vary the spacing of the eyelets.

14:. In an eyeleting machine, the combination with a stationary anvil, means cooperating therewith to punch and set an eyelet in a piece of stock on the anvil, and to punch another piece of stock in line with the axis of the eyelet, of a pair of jaws disposed adj acent the anvil, a movable member on which the jaws are pivoted, means to close the jaws on the stock after each successive eyelet is set therein, awayfrom the anvil to feed the stock there on while the jaws are closed.

15. lln an eyeleting machine, the combina tion with a stationary anvil, means cooperating therewith to punch and set an eyelet in a piece of stock on the anvil and to punch another piece of stock in line with the axis of the eyelet, of a pair of jaws adjacent the anvil, a pivoted member on which the jaws are pivoted, means to close the jaws on the stock after the eyelet is set therein, means to move said member on its pivot away from the anvil to feed the stock thereon while the jaws are closed, and means to return the jaws to initial position. I

16. In an eyeleting machine, the combination with a stationary anvil, means cooper ating therewith to punch and set an eyelet in a piece of stock on the anvil and to punch another piece of the axis of the eyelet, of a pair of jaws adjacent the anvil, a pivoted member on which the jaws are pivoted, a shaft, means operated by the shaft to close the jaws on the stock after the eyelet is set therein, a wedge operated by the shaft to move the member on its pivot away from the anvil to feed the stock thereon while the jaws are closed, a bevel on the member in the path of the wedge, and a spring to return the member to its initial position.

17. lln an eyeleting machine, the combination with a stationary anvil, a combined punch and eyelet set cooperating therewith, a tubular punch cooperating with the anvil in the line of the punch, mechanical means to feed automatically the stock along the anvil a predetermined distance after each eyelet is set therein, a stock-clamp in the line of the anvil, and means to actuate the clamp to hold the stock between the operations of the stock-spacing means. u

18. lln an eyeleting machine, the combination with a stationary anvil, a combined punch and eyelet set cooperating therewith, a tubular punch cooperating with the anvll in the line of the punch, mechanical means to feed automatically the stock along the anvil a predetermined distance after each eyelet is set therein, a. stock-clamp 1n the and means to move said member stock in line with 19. In an eyeletingmachine, the combinatiomwith a stationary frame, an anvil extending over the frame, a combined punch and eyelet set cooperating therewith, a sec- 0nd punch cooperatingwiththe anvil in the line of the punch first. mentioned, me-

chanical means for feeding the stock along the anvil a predetermined distance after each eyelet is set therein, a stock-clamp mounted in the frame to reciprocate in the line of the anvil, and means to actuate the clamp between the operations of the stockspacin means.

20. machine for setting blind or concealed eyelets, having, in. combination, a tubular punch, a solid punch of substantially the same diameter as the interior diameter of the tubular punch, an anvil arranged to cooperate with the tubular punch, means for actuating both punches to perforate two layers of superposed material and to advance subsequently the solid punch to force the punchings from both layers into the tubular punch, and means for inserting an eyelet in one of the perforated layers. 21. A machine for setting blind or concealed eyelets, having, in combination, a

tubular punch, a solid punch of substantially the same diameter as the interior of the tubular punch, means for operating the solid punch to perforate one of two superposed shoe parts and the tubular punch to erforate the other shoe part, and cooperat- .1ng setting members of which one is constructed and arranged to be disposed with its setting surface between the two -shoe parts, said punches being relatively movable in the setting operation to force the punchings into the bore of the tubular punch.

22. In an eyeleting machine, a combined punching die and upsetting member, a carrier movable toward and from said member, a punch mounted therein, a spring arranged to back up .the punch, and means located within the spring for positively advancing the punchafter it has yielded a predetermined distance within the carrier.

23. A machine for settin blind or concealed eyelets having, in com ination, a support for a part and an outer part, a tubular punch for perforating one part, a punch and die for perforating the other part, and setting devices for clenching an eyelet in the hole formed by the punch and die. 7

24:. A machine for setting blind or concealed eyelets having, in combination, a support-for a shoe upper comprising a lining part and an outer part, a tubular punch for perforating one part, a solid punch constructed and arranged to form in the other part a smaller hole than that formed in the first part, and setting devices for setting an eyelet in the hole formed by the solid punch.

25. A machine for setting blind or concealed eyelets having, in combination, a tubular punch and cutting block for perforating one of the parts of a shoe upper which comprises outer and lining parts, a

punch and die for perforating the other part, and setting devices for setting aneyelet in the hole formed by the punch and die. In testimony whereof I aflix my signature in presence of two witnesses.

JOSEPH W. BARNA. Witnesses:

Em'm Wmcox, J. MCROBERTS.

shoe upper comprising a lining

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