US215117A - Improvement in nailing-machines - Google Patents
Improvement in nailing-machines Download PDFInfo
- Publication number
- US215117A US215117A US215117DA US215117A US 215117 A US215117 A US 215117A US 215117D A US215117D A US 215117DA US 215117 A US215117 A US 215117A
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- United States
- Prior art keywords
- wire
- horn
- nail
- rod
- stock
- Prior art date
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- Expired - Lifetime
Links
- 210000003284 Horns Anatomy 0.000 description 60
- 210000000282 Nails Anatomy 0.000 description 58
- 210000003128 Head Anatomy 0.000 description 20
- 239000000969 carrier Substances 0.000 description 18
- 210000001331 Nose Anatomy 0.000 description 16
- 239000000203 mixture Substances 0.000 description 14
- 101700078171 KNTC1 Proteins 0.000 description 12
- 238000007493 shaping process Methods 0.000 description 8
- 210000003371 Toes Anatomy 0.000 description 6
- 230000001105 regulatory Effects 0.000 description 6
- 210000000887 Face Anatomy 0.000 description 4
- 210000002683 Foot Anatomy 0.000 description 4
- 229910000831 Steel Inorganic materials 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 4
- 239000000463 material Substances 0.000 description 4
- 230000036633 rest Effects 0.000 description 4
- 239000010959 steel Substances 0.000 description 4
- 241000223221 Fusarium oxysporum Species 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 230000000875 corresponding Effects 0.000 description 2
- 230000000994 depressed Effects 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000000284 resting Effects 0.000 description 2
- 230000000630 rising Effects 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25C—HAND-HELD NAILING OR STAPLING TOOLS; MANUALLY OPERATED PORTABLE STAPLING TOOLS
- B25C1/00—Hand-held nailing tools; Nail feeding devices
- B25C1/04—Hand-held nailing tools; Nail feeding devices operated by fluid pressure, e.g. by air pressure
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/00234—Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery
Definitions
- This invention relates to improvements in nailing-machines fornailing the soles to the uppers in the manufacture of boots and shoes.
- My invention has for its object the production of a machine which shall make headed nails from a wire and then drive them into the sole.
- the horn has combined with it devices to always lower it a definite distance from the position it occupied when the nail was driven, notwithstanding variations in the thickness of the stock, to provide for releasing the stock in order to permit it to be fed.
- the wire when being formed into a nail, is
- Figure 1 represents, in side elevation, a nailing-machineembo'dying my invention
- Fig. 2 a front elevation of the upper part thereof.
- Fig. 3 is a view of the head of the machine, the covering or face plate being withdrawn to show the feeding mechanism, the driver-slide, and the cutter and clamps, the cutter being drawn back and elevated.
- Fig. 4 is a section of Fig. 3 on the dotted line thereon.
- Figs. 5 to 8 are details to be referred to;
- Fig. 9, a section of the cam for operating the nail-driver rod or bar.
- Fig. 10 is a rear elevation of the machine-column Fig. 11, a vertical section thereof; Fig. 12, a cross-section on the dotted line, Fig. 10; Fig. 13, a left-hand side elevation of Fig. 2.
- Fig. 10 is a rear elevation of the machine-column Fig. 11, a vertical section thereof;
- Fig. 12 a cross-section on the dotted line, Fig. 10;
- Fig. 13, a left-hand side elevation of Fig. 2.
- Fig. 10 is
- Fig. 14 is a rear-side elevation of one of the cam-hubs, its front side being shown in Fig. 6.
- Fig. 15 is anunder-side view of Fig. 13, to show the feeding device which engages and moves the shoe, the said figure also showing the under face ofthe nose of the machine.
- Figs. 16 to 20, inclusive represent the cutters and dies for severing and shaping the nails;
- Fig. 21, a section of clamp or die 50 very much enlarged beyond the scale adopted for Fig. 20.
- Fig. 22 shows one of the nails made by the machine herein described, the nail being shown enlarged; and
- Fig. 23 is a detail, to be hereinafter referred to.
- the frame-work of the machine is composed of the column a, or base, and top part, I), fixed thereon.
- the lower end of shaft 6, which carries hub 0, is provided with an eccentric pin or projection, 7, (see Figs.
- the length of the feed maybe varied, if desired, by making the pin 7 adjustable, or preferably by providing the portion 8 within it with a movable slide controlled by a screw, as in Fig. 15.
- the horn h of the machine is adapted to swivel or turn freely about the upper end of the rod 1', provided with a collar, 7', upon which the horn rests, the said rod forming practically a part of or a continuation of the swiveling horn.
- a rack At or near the lower end of the horn-rod i is attached a rack, (see Fig. 11,) which by its teeth engages with the sector-shaped toothed short end of a connecting-lever, Ir. the longer end of which, toothed as at 12, engages with the rack-teeth 13 on the block 14, attached to the horn-depressing rod I, which is provided with a fixed collar, 15, fitted to the longitudinal passage n in the column, and which has its upper end extended through the bearingsleeve 16, placed in the column, (see Fig.
- the said rod l being always acted upon so as to throw it downward by a spring, m, which surrounds the rod and rests upon the collar 15, the force of the spring being controlled at pleasure, by raising or lowering the hearing or spring-controller 16, through the toothed rod 0, which engages rack-teeth at the side of bearing 16.
- the strength of the spring m determines the force of upward pressure of the horn end 17 against the inner sole, and consequently the force with which the stock is clamped between the horn end and guidenose g. The horn end in rising strikes a sharp blow, which takes up and holds the settle of the stock.
- the rod 1 When a nail is being driven the rod 1 is clamped by means of the clamp p, composed of two pivoted blocks, 18 19, fitted within a yoke guided at one end by a rod, 20, about which is an adjustable spring, 21, and which, at its other end, is connected with a link, 1', adjustably connected at its upper end with one arm, s, of a rocking-lever, s t, the other arm, t, being provided with a roller or stud to enter the cam-groove u in the disk 10, the said cam and lever and link, besides operating the clamp to hold the rod and horn in fixed position when nailing, also acting positively to grasp and lift the rod, and lower the horn after each nail is driven for a certain distance below the position in which it was so locked, to permit the feed to take place, and then the spring m is left free to act to throw the horn upward until it again pinches the stock between it and the nose g, the upward movement of the horn being more or less, according to the
- the rod 1 may be lifted by a rod, m, which, connected with the rear end of a foot-treadle, 23, abuts against an ear, y, of the block '14, and consequently the horn may be thereby depressed.
- a second foot-treadle, 24, one end of which is shown in Fig. 10, is by link connected with a crank on the driving-wheel 26 of the main shaft f, so as to rotate it; or the shaft f may be rotated in any usual way.
- the horn-rod t has projecting from it a rigid arm, 27, adjustably connected with which is the regulating device to aid in governing the length of each nail accordiu g to the thickness of the stock and the position of the upper end of the horn.
- This regulating device is shown as a rod, 28, at the top of which is a socketpiece, 29, to receive within it a foot, 30, pivoted to an arm, 31, of a rock-shaft, 32, which at its other end has a pawl-carrying arm, 5 having one or more pawls, 33, to engage the ratchet-wheel 34 on the shaft 35, which carries the lower or principal roller, 36, of the wirefeeding device.
- the pawl-carrier is moved from its backward or lowest position to cause the pawl to actuate the feed-wheels by means of a link, 37, connected with the end 38 (see Figs. 1 and 2) of a rock-shaft, 39, (see Fig. 3,) which has another arm, 40, provided with a roller-stud, 41, which is acted upon by a cam, 42, on the main shaft f, the cam being, however, so shaped, as at 43, to permit the spring 44 in the tube 45 to press upon the ear 46 of the arm 38 of the rock-shaft 39, and quickly throw the pawl-carrier backward, placing its pawl in position to again engage the ratchetwheel 34.
- the upper roller, 47, of the feeding device is pressed down upon the wire on the positively-moved roller with more or less force by means of a spring, 48, and a screw, 49. (See Fig. 3.)
- the wire After passing between the feed-rollers the wire enters a guideway, and from it the free end of the wire is fed into and between the faces of a clamp composed of two blocks, 50 51, one of which, the one 50, is fixed, while the one 51 is movable, it being connected with a vibrating arm, 52, actuated by a cam, 53, at the lower end of shaft 6, a suitable spring moving it in the opposite direction quickly.
- Figs. 16 to 20 show different views of the sides, faces,and other parts of the said clamps or dies 50 51.
- the clamp or die 50 composed of steel, has at its lower portion indentations 54, above it, one half, 55, of the head-shaping die, then the point-shaper 58, the point-ofl'set 57, and the wire-groove 56.
- the die or clamp 51 has indentations 54" and a head-shaping die, 55*, the portions 54 and 54 and 55 and 55 coming exactly opposite, clamping the wire between them, and indentin g or rougheuing its body.
- the cutter 59 made as a steel block and being preferably flat-faced, is moved forward against the wire then resting between the dies, and extending through the groove 56 to the reel, and 'forces the wire into the groove 56, causing one side of it to assume the shape of theparts 57 58, ofisetting a portion of the wire above the heading space or die 55.
- the cutter 59 is moved downward, and its lower corner, 61, cuts into and through the wire diagonally, and as the lower face-ofthe cutter meets the top of the die 51 thecutter crowds the metal under it into the head ng space or die, and forms a head to correspond in shape with the spaces 55*, and leaves the end of the wire pointed for the next n ail,.the point being a clinching-point. i '1
- the shape of the pointand head of the nail may be varied by. changing the outline of the dies.
- a nail such asthe machine will make is shownatlFig. 22.
- the head 64 the: point offset from the side of the wire, andL65Yis-the indented bodyr
- the nail having, been formed as described, the: clamps or dies 50151 are opened, and the cutterelevated and. moved back, and then the driverdescends and drives the headed. nail downward through the .nose 9.
- the cutter 59 is xattaehed to a slide-bar, 66, which is'raisedand lowered by means of a vibratingtoothed disk, 67, at the end of a rockshaft, 68,-set in motion by a cam, 76, on shaft. f, (see Figs. Band 14,) the said disk 67 en-v gagingthe' teeth of a rack, 71, pivoted to..the:
- the bar 66 is moved to press thecutter forward by means of a: lever, 72, actuated by a cam, 73, the end of the lever having a' pin provided with a swivel-block, 74, which enters agroove in the bar. (See Fig. 3.)
- the hook 75 When it is desired toxprevent the wire-feed from working, or nails-from being made, the hook 75, moved by the arm 76, is turned so as to engage the'pin 77 of arm 31, and the hook is locked in position by means of the springpawl 78, which engages a notched portion, 79, Fig. 7.
- the born or its end 17 is always held in position against the stockv or material being nailed, the horn crowding the said stock upward against-the fixed nose and clamping it, and, consequently, the upper end of the horn during the nailing process occupies a variable position according to the thickness of the'stock, and these various positions I hereindenominate the variable base-line; and it will be.
- the horn is positively lowered a fixed and uniform distance from this variable baseline to release the stock when it is to be fed.
- the toe 80 of the lever 52 is slottedand connected with the said-lever by means of a setscrew, 81, (see Fig. 23,) so that in case the driver becomes broken or caught between the dies the said toe may slip and prevent the machine being broken.
- the cutter 59 is, and the dies will be, fluted longitudinally to meet corresponding fluted portions of the parts co-operatin g with them, this construction enabling the cutter and dies to be securely held in place.
- the end must extend more or less through the stock. This variation is herein provided for by adjusting the regulating-rod 28 as to its height with relation to the top of the horn.
- the rod is connected with the arm 27 by nuts 83 84.
- the hook device 75 to prevent the action of the feed, may be thrown into position to engage the pin 7 7 to stop the feed at any ,position of the pawl-carrier, and at the next ascent of the pawl-carrier the said hook will positively hold the feeding devices by engaging the pin 77.
- the nose has above it, at front and rear, two prongs, 85 86, and the ends of'the dies 50 51, next the portions 54, are reduced to enter between these prongs 85 86, the prongs acting to retain and assist in guiding the nail when the dies are retracted.
- I claim- 1 In a nailing-machine, to unite the uppers and soles of boots and shoes, a horn, and a rigid nose above it, combined with. mechanism to permit the horn to automatically adapt itself to the thickness of the stock, and with mechanism to automatically and, positively depress the said horn a fixed and determined distance from a base-line variable according to the thickness of the stock, substantially as described.
- the combination in a machine for uniting the uppers and soles of boots and shoes, the combination, with an upwardly-pressed born, to thereby adapt it to the thickness of the stock, and mechanism to hold it locked in position while a nail is being driven, and wire-feeding mechanism, of connecting mechanism between the horn and feeding mechanism, to vary the length of the wire fed into the machine, to thereby automatically adapt the length of the nail to the thickness of the stock.
- the cutter-carrying bar (it; and mechanism to move it laterally to press the end of the cutter against the wire, combined with the pivoted rack 71 and the oscillating pinion 67, to permit the cutter to be moved downward, substantially as and for the purpose described.
Description
. .4 shemS snQ L LIGODDU.
Nailing-Machines. No. 215,117. Patented May 6, 18.79.
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4 Sheets-Sheet 2.
LJGODDU.
Nailing-Machines. I No. 215,117. Patented May 6, 1879 Wilt 55555. r ve-f int N. PETERS. FHOTO-LITHOGRAPHER, WASNINGTON. D Cv 4 Sheets-Sheet 3.
L. GODDU. Nailing-Machines. No. 215,117. Patented May 6,1879.
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T I I \Wit 12:55 25.
{SheetsSheet 4.
L. GODDU. Nailing-Machines.
No. 215,117. Patented May UNITED STATES PATENT on.
LOUIS GODDU, OF WINCHESTER, ASSIGNOR TO GORDON MGKAY AND JAMES W. BROOKS, TRUSTEES OF MGKAY METALLIC FASTENING ASSOCIATION,
OF BOSTON, MASSACHUSETTS.
IMPROVEMENT IN NAlLlNG-MACHINES.
Specification forming part of Letters Patent No. 215,117, dated May 6, 1879 application filed February 12, 1879.
To all whom it may concern.-
Be it known that I, LOUIS GODDU, of Winchester, county of Middlesex, State of Massachusetts, have invented an Improvement in Nailing-Machines, of which the following description, in connection with the accompanying drawings, is a specification.
This invention relates to improvements in nailing-machines fornailing the soles to the uppers in the manufacture of boots and shoes.
My invention has for its object the production of a machine which shall make headed nails from a wire and then drive them into the sole.
In this my improved machine I have provided instrumentalities by which to automatically determine the length of the headed nail to be formed from the wire, according to the thickness of the stock or material entering into or composing the sole of the shoe or boot being nailed.
The horn has combined with it devices to always lower it a definite distance from the position it occupied when the nail was driven, notwithstanding variations in the thickness of the stock, to provide for releasing the stock in order to permit it to be fed.
The wire, when being formed into a nail, is
first clamped at its lower end between dies,
which will preferably be so made as to corrugate or indent the surface or body of the nail, after which a point-forming cutter or slide acts upon the wire a short distance above the said clamps and offsets the wire, as will be hereinafter described, so that as the said outter descends or moves in the direction of the length of that part of the wire held clamped for grasp the body of the nail.
Figure 1 represents, in side elevation, a nailing-machineembo'dying my invention; Fig. 2, a front elevation of the upper part thereof.
Fig. 3 is a view of the head of the machine, the covering or face plate being withdrawn to show the feeding mechanism, the driver-slide, and the cutter and clamps, the cutter being drawn back and elevated. Fig. 4 is a section of Fig. 3 on the dotted line thereon. Figs. 5 to 8 are details to be referred to; Fig. 9, a section of the cam for operating the nail-driver rod or bar. Fig. 10 is a rear elevation of the machine-column Fig. 11, a vertical section thereof; Fig. 12, a cross-section on the dotted line, Fig. 10; Fig. 13, a left-hand side elevation of Fig. 2. Fig. 14 is a rear-side elevation of one of the cam-hubs, its front side being shown in Fig. 6. Fig. 15 is anunder-side view of Fig. 13, to show the feeding device which engages and moves the shoe, the said figure also showing the under face ofthe nose of the machine. Figs. 16 to 20, inclusive, represent the cutters and dies for severing and shaping the nails; Fig. 21, a section of clamp or die 50 very much enlarged beyond the scale adopted for Fig. 20. Fig. 22 shows one of the nails made by the machine herein described, the nail being shown enlarged; and Fig. 23 is a detail, to be hereinafter referred to.
The frame-work of the machine is composed of the column a, or base, and top part, I), fixed thereon. The cam-hub 0, moved by the bevelpinions d e and the main shaft f, receives within its cam-groove 2 the roller or stud d? of the driver-bar 0 to the lower end of which by the screw 3 is attached the driver 4,-it extending into and being guided by a guide, 5, the said cam-groove raising and lowering the driver at the proper times. The lower end of shaft 6, which carries hub 0, is provided with an eccentric pin or projection, 7, (see Figs. 13 and 15,) which enters a hole in a slotted portion, 8, of the feeding-barf, pivoted at 9, and having a serrated surface, 10, which engages the soleedge below the under face of the guide-nose g, from which the finished-nailiis driven by the driver directly into the sole.
The length of the feed maybe varied, if desired, by making the pin 7 adjustable, or preferably by providing the portion 8 within it with a movable slide controlled by a screw, as in Fig. 15.
The horn h of the machine, of any usual shape, is adapted to swivel or turn freely about the upper end of the rod 1', provided with a collar, 7', upon which the horn rests, the said rod forming practically a part of or a continuation of the swiveling horn.
At or near the lower end of the horn-rod i is attached a rack, (see Fig. 11,) which by its teeth engages with the sector-shaped toothed short end of a connecting-lever, Ir. the longer end of which, toothed as at 12, engages with the rack-teeth 13 on the block 14, attached to the horn-depressing rod I, which is provided with a fixed collar, 15, fitted to the longitudinal passage n in the column, and which has its upper end extended through the bearingsleeve 16, placed in the column, (see Fig. 11,) the said rod lbeing always acted upon so as to throw it downward by a spring, m, which surrounds the rod and rests upon the collar 15, the force of the spring being controlled at pleasure, by raising or lowering the hearing or spring-controller 16, through the toothed rod 0, which engages rack-teeth at the side of bearing 16. The strength of the spring m determines the force of upward pressure of the horn end 17 against the inner sole, and consequently the force with which the stock is clamped between the horn end and guidenose g. The horn end in rising strikes a sharp blow, which takes up and holds the settle of the stock. When a nail is being driven the rod 1 is clamped by means of the clamp p, composed of two pivoted blocks, 18 19, fitted within a yoke guided at one end by a rod, 20, about which is an adjustable spring, 21, and which, at its other end, is connected with a link, 1', adjustably connected at its upper end with one arm, s, of a rocking-lever, s t, the other arm, t, being provided with a roller or stud to enter the cam-groove u in the disk 10, the said cam and lever and link, besides operating the clamp to hold the rod and horn in fixed position when nailing, also acting positively to grasp and lift the rod, and lower the horn after each nail is driven for a certain distance below the position in which it was so locked, to permit the feed to take place, and then the spring m is left free to act to throw the horn upward until it again pinches the stock between it and the nose g, the upward movement of the horn being more or less, according to the thickness of the stock.
In practice 1 have found it desirable to make the rod 1, when operated upon by the clamps, ofother than cylindrical form-as, forinstance, triangular or waved.
The rod 1 may be lifted by a rod, m, which, connected with the rear end of a foot-treadle, 23, abuts against an ear, y, of the block '14, and consequently the horn may be thereby depressed.
A second foot-treadle, 24, one end of which is shown in Fig. 10, is by link connected with a crank on the driving-wheel 26 of the main shaft f, so as to rotate it; or the shaft f may be rotated in any usual way.
The horn-rod t has projecting from it a rigid arm, 27, adjustably connected with which is the regulating device to aid in governing the length of each nail accordiu g to the thickness of the stock and the position of the upper end of the horn. This regulating device is shown as a rod, 28, at the top of which is a socketpiece, 29, to receive within it a foot, 30, pivoted to an arm, 31, of a rock-shaft, 32, which at its other end has a pawl-carrying arm, 5 having one or more pawls, 33, to engage the ratchet-wheel 34 on the shaft 35, which carries the lower or principal roller, 36, of the wirefeeding device. The pawl-carrier is moved from its backward or lowest position to cause the pawl to actuate the feed-wheels by means of a link, 37, connected with the end 38 (see Figs. 1 and 2) of a rock-shaft, 39, (see Fig. 3,) which has another arm, 40, provided with a roller-stud, 41, which is acted upon by a cam, 42, on the main shaft f, the cam being, however, so shaped, as at 43, to permit the spring 44 in the tube 45 to press upon the ear 46 of the arm 38 of the rock-shaft 39, and quickly throw the pawl-carrier backward, placing its pawl in position to again engage the ratchetwheel 34. I f the backward stroke of the pawl were always the same, the nails would all be of the same length but this backward movement of the pawl is made variable according to the thickness of the stock, and the pawl-carrier can move backward only until the foot-piece of the arm 31 of rock-shaft 32, which carries the pawl-carrier, meets the end of the regulating rod 28, the upward termination of which is variable according to the position of the top of the horn. In this way only snflicient length of wire for each nail, and that according to the thickness of the stock, is fed forward by the wire-feeding device.
The upper roller, 47, of the feeding device is pressed down upon the wire on the positively-moved roller with more or less force by means of a spring, 48, and a screw, 49. (See Fig. 3.)
After passing between the feed-rollers the wire enters a guideway, and from it the free end of the wire is fed into and between the faces of a clamp composed of two blocks, 50 51, one of which, the one 50, is fixed, while the one 51 is movable, it being connected with a vibrating arm, 52, actuated by a cam, 53, at the lower end of shaft 6, a suitable spring moving it in the opposite direction quickly.
Figs. 16 to 20 show different views of the sides, faces,and other parts of the said clamps or dies 50 51.
The clamp or die 50, composed of steel, has at its lower portion indentations 54, above it, one half, 55, of the head-shaping die, then the point-shaper 58, the point-ofl'set 57, and the wire-groove 56.
The die or clamp 51 has indentations 54" and a head-shaping die, 55*, the portions 54 and 54 and 55 and 55 coming exactly opposite, clamping the wire between them, and indentin g or rougheuing its body. When these clamps 51 are closed upon the wire, the cutter 59, made as a steel block and being preferably flat-faced, is moved forward against the wire then resting between the dies, and extending through the groove 56 to the reel, and 'forces the wire into the groove 56, causing one side of it to assume the shape of theparts 57 58, ofisetting a portion of the wire above the heading space or die 55. Then the cutter 59 is moved downward, and its lower corner, 61, cuts into and through the wire diagonally, and as the lower face-ofthe cutter meets the top of the die 51 thecutter crowds the metal under it into the head ng space or die, and forms a head to correspond in shape with the spaces 55*, and leaves the end of the wire pointed for the next n ail,.the point being a clinching-point. i '1 The shape of the pointand head of the nail may be varied by. changing the outline of the dies.
A nail such asthe machine will make is shownatlFig. 22. In that figure 63 is the head, 64 the: point offset from the side of the wire, andL65Yis-the indented bodyr The nail having, been formed as described, the: clamps or dies 50151 are opened, and the cutterelevated and. moved back, and then the driverdescends and drives the headed. nail downward through the .nose 9.
The cutter 59 is xattaehed to a slide-bar, 66, which is'raisedand lowered by means of a vibratingtoothed disk, 67, at the end of a rockshaft, 68,-set in motion by a cam, 76, on shaft. f, (see Figs. Band 14,) the said disk 67 en-v gagingthe' teeth of a rack, 71, pivoted to..the:
slide-bar 66.
The bar 66 is moved to press thecutter forward by means of a: lever, 72, actuated by a cam, 73, the end of the lever having a' pin provided with a swivel-block, 74, which enters agroove in the bar. (See Fig. 3.)
When it is desired toxprevent the wire-feed from working, or nails-from being made, the hook 75, moved by the arm 76, is turned so as to engage the'pin 77 of arm 31, and the hook is locked in position by means of the springpawl 78, which engages a notched portion, 79, Fig. 7.
In this machine it will be seen that the born or its end 17 is always held in position against the stockv or material being nailed, the horn crowding the said stock upward against-the fixed nose and clamping it, and, consequently, the upper end of the horn during the nailing process occupies a variable position according to the thickness of the'stock, and these various positions I hereindenominate the variable base-line; and it will be.
noticed that the horn is positively lowered a fixed and uniform distance from this variable baseline to release the stock when it is to be fed.
In this machine the wire is not wasted when the head and point are formed.
The toe 80 of the lever 52 is slottedand connected with the said-lever by means of a setscrew, 81, (see Fig. 23,) so that in case the driver becomes broken or caught between the dies the said toe may slip and prevent the machine being broken.
The cutter 59 is, and the dies will be, fluted longitudinally to meet corresponding fluted portions of the parts co-operatin g with them, this construction enabling the cutter and dies to be securely held in place.
To vary the extent of clinch at the point of the nail, the end must extend more or less through the stock. This variation is herein provided for by adjusting the regulating-rod 28 as to its height with relation to the top of the horn.
The rod is connected with the arm 27 by nuts 83 84.
The hook device 75, to prevent the action of the feed, may be thrown into position to engage the pin 7 7 to stop the feed at any ,position of the pawl-carrier, and at the next ascent of the pawl-carrier the said hook will positively hold the feeding devices by engaging the pin 77.
The nose has above it, at front and rear, two prongs, 85 86, and the ends of'the dies 50 51, next the portions 54, are reduced to enter between these prongs 85 86, the prongs acting to retain and assist in guiding the nail when the dies are retracted.
I claim- 1., In a nailing-machine, to unite the uppers and soles of boots and shoes, a horn, and a rigid nose above it, combined with. mechanism to permit the horn to automatically adapt itself to the thickness of the stock, and with mechanism to automatically and, positively depress the said horn a fixed and determined distance from a base-line variable according to the thickness of the stock, substantially as described.
2. In a machine for uniting the uppers and soles of boots and shoes, the combination, with wire feeding mechanism, of mechanism to sever the wire and simultaneously form the point for one and the head for another nail, substantially as described.
3. In a machine for uniting the uppers and soles of boots and shoes, the combination, with an upwardly-pressed born, to thereby adapt it to the thickness of the stock, and mechanism to hold it locked in position while a nail is being driven, and wire-feeding mechanism, of connecting mechanism between the horn and feeding mechanism, to vary the length of the wire fed into the machine, to thereby automatically adapt the length of the nail to the thickness of the stock.
4. The combination, with the clamping-dies provided with head-shapin g cavities to grasp and hold the wire, of a cutter to sever the wire diagonally, and to follow the upper end of the nail being severed, and form an enlarged head upon it while held by the the clamping-dies, substantially as described.
5. The combination, with the clamping-dies, provided with a heading-cavity and a pointshaping cavity or offsetting-recess, of a cutter to first act upon the wire and bend it into the point-shaping cavity, and then cut into the wire diagonally to form an enlarged head upon and sever a nail from the length of wire, substantially as described.
6. The feeding-rollers, ratchet 34, tixed with relation to one of them, and pawl-carrier, and a pawl and its rocker-shaft, and mechanism to always throw the )awlcarrier and paw] for- Ward to a certain fixed point, combined with a spring to throw the pawl-carrier backward, and a variable stop to arrest the backward movement of the pawl-carrier according to the position of the upper end of the horn, substantially as described.
7. The combination, with clmnping-dics to grasp and hold the wire and a cutter to sever and form an enlarged head, as described, on the nail to be driven, combined with feeding mechanism adapted to feed into the dies a variable quantity or length of wire, according to the thickness of the stock, to thereby t'orm headed nails of different lengths as needed in stock of different thickness.
8. The combination. with the horn and regulating-rod 28, and pawl-carrying rock-shaft for the feeding mechanism, of a hook to hold the pawlcarrier in elevated position and prevent the operation of the wire-feeding mechanism, substantially as described.
9. The born, the horn-depressing rod 1, and the connecting-lever between them, combined with the spring to depress the rod 1, and control the extent of upward pressure of the upper end of the horn against the stock, substantially as described.
10. The rod I, collar 15, and bearing" 16, and spring m, combined with an adjusting device, 0, to move the bearing and compress the spring, substantially as described.
11. The cutter-carrying bar (it; and mechanism to move it laterally to press the end of the cutter against the wire, combined with the pivoted rack 71 and the oscillating pinion 67, to permit the cutter to be moved downward, substantially as and for the purpose described.
12. The combination, with the movable die and its arm, of a slotted toe held thereto, substantially as described.
13. The cutter or die fluted at its side, to enable it to be held securely and rigidly, substantiall y as described.
14. The nose provided with the prongs 85 86, combined with the dies, substantially as and for the purpose described.
15. In a machine for uniting the soles and uppers of boots and shoes, the following instrumentalities-viz: a horn to enter the shoe, mechanism to move the end of the horn a fixed distance from a variable base-line, as described, a variable spring to strike or impact the end of the horn against the stock held between it and the nose preparatory to or when driving the nail, and feeding mechanism, to feed a wire a variable distance in accordance with the thickness of the stock, substantially as described.
16. The horn-depressing rod, mechanism to lift and depress it, the horn, and pivoted lever connecting them, combined with an independent regulating-rod or device connected with and moved by the horn to control the extent of movement of the wire-feeding mechanism and the length of the wire to be formed into a nail, substantially as described.
In tcstimon y whereof I have signed my name to this specification in the presence of two sub scribing witnesses.
LOUIS GODDU.
\Vi tnesses:
(i. W. GREGORY, L. 1*. CONNOR.
Publications (1)
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US215117A true US215117A (en) | 1879-05-06 |
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ID=2284520
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Application Number | Title | Priority Date | Filing Date |
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US215117D Expired - Lifetime US215117A (en) | Improvement in nailing-machines |
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US (1) | US215117A (en) |
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