US886313A

US886313A - Nailing-machine.

Info

Publication number: US886313A
Application number: US86083A
Authority: US
Inventors: Solomon M Cutter
Original assignee: United Shoe Machinery Co AB
Current assignee: USM Ltd; United Shoe Machinery Co AB
Priority date: 1898-04-19
Filing date: 1901-12-16
Publication date: 1908-04-28
Anticipated expiration: 1925-04-28

Description

PATENTED APR. 28, l908.

S. GUTTBR.

. NAILING MACHINE. APPLIOATION FILED 31:0. 16,1901.

2 SHEETS-SHEET 1.

rm.- mmiul rzrsns co.. wAsmucron. o. c.

No. 886,313. v PATENTED APR. 28, 1908.

s. M. CUTTER.-

NAILING MACHINE.

APPLICATION FILED nnc.1s,19o1.

UNITED STATES PAENT ornron.

SOLOMON M. CUTTER, OF ASHLAND, MASSACHUSETTS, ASSIGNOR TO UNITED SHOE MACHINERY COMPANY, OF PATERSON, NEW JERSEY, AND BOSTON, MASSACHU- SETTS, A CORPORATION OF NEW JERSEY.

- N AILIN G-MACHIN E Original application filed April 19, 1898, Serial No. 678,148.

Specification of Letters Patent.

Serial No. 86,083.

To all whom it may concern:

Be it known that I, SOLOMON M. CUTTER, a citizen of the United States, residing at Ashland, in the county of Middlesex and Commonwealth of Massachusetts, have invented an Improvement in Nailing Machines, of which the following description, in connection with the accompanying drawings, is a specification, like letters on the drawings representing like parts.

This invention relates to nailing machines and particularly to nailing machines used in the manufacture of boots and shoes.

An object of the invention is to improve and simplify the construction of such machines, especially with respect to the arrangement and timing of the nail-delivering and nail-inserting mechanisms.

In the accompanying drawings,-Figure 1 is a side view of part of a nailing machine embodying my invention. Fig. 2 is a front elevation of the part of the machine shown in Fig. 1. Fig. 3 is a front view partially in section of the carrier for placing the nail in position to be driven. Fig. 4 is a detail showing the wire cutter and part of a lever for moving it. Fig. 5 is a horizontal section on line y, Fig. 6, through the wire feeding mechanism, said figure showing the wire cutter occupying a position parallel with the longitudinal axis of the carrier, and Fig. 6 is a vertical section parallel with the driver bar, and through the wire feeding mechanism, the line of section being transverse to the longitudinal axis of the carrier.

The head a of the machine erected on a suitable column a has suitable hearings to sustain the driving shaft a provided at one end with a cam a having operating parts a a and carrying a crank pin 0, The crank pin a carries a link 7) ointed at its lower end to a driver bar b free to be reciprocated in the head a, and provided with a driver 5 The part a of the cam a moves a lever b pivoted at 12* and employed to move a bar 6 carrying an awl b laterally in a direction to enable the awl forced into the stock to feed the stock in usual manner toward the driver and between a stock support 2 and a foot plate 3 of any one end to the lever 5 and at its other end to the frame, tends to maintain the roll 0 of the lever b in contact with the operating part a of the cam c A spring 0 attached to the awl bar and to the frame moves said bar away from the driver as the lower end ofthe lever is moved away from the driver.

The awl carrying bar If is pivoted to the free end of a lever c mounted on a shaft 0 said lever having an arm 0 provided with a roller stud c that enters a cam al at the rear side of the cam a, said groove actuating the lever c to reciprocate the awl bar positively in both directions, that the awl may penetrate the stock and be withdrawn therefrom after the operation of feeding the stock.

The parts so far described are substantially the same as described in United States Letters Patent N 0. 582,579, dated May 11, 1897.

The head has a pivot d for a lever d actuated by the operating part c of the cam a the lever reciprocating the wire cutter (1 to be described. The continuous wire 6 from which the nails are to be out, is sup lied by any suitable reel as A, and is led therefrom through a wire guide e where it is acted upon by a suitable Wire feeding mechanism shown as a toothed wheel 0 mounted on a shaft 6 provided at one end with a ratchet wheel 6 see Fig. 1, that is engaged and rotated intermittingly by a suitable pawl e at the end of a lever 0 provided at its upper end with screws e e the adjustment of which determines the extent of movement of the lever e, and consequently the distance that the wire is fed at each operation of the feeding device. The screw '6 engages the head a and limits the forward 10 entering a groove in the side thereof.

A spring 8 connected with lever 6 acts normally to hold the screw e against the inner end of the sliding pin. The wire is held pressed against the periphery of the feed sage wheel 6 by a roll f mounted on a stud f carried by a lever f pivoted at f and held yieldingly by. a spring f controlled by a screw f. The feed wheel moves the wire longitudinally so that its free end enters a passage in a nail carrier 9 represented as an enlarged circular block at one end of a rock shaft 9 having its bearing between a sup ort shown as two plates g g concaved and eld together bya suitable screw as g and presenting between them immediately above and below the carrier a driver passage g The shaft g has secured to it an arm g shown as provided with a cam groove g that is entered by a stud 12 see Fig. 3 on a movable throat piece 13 having a passage 14 to receive the nail acted. upon by the driver as the same leaves the carrier, said throat directing the nail while it is being driven into the stock, the cam groove causing the throat to be moved longitudinally to occupy a position to place its passage in the line of the driver when a nail is to be driven, and moving the throat away from the path of the driver when the awl is acting to feed the stock, the driver being then elevated. The arm g has a connected link y that is jointed to a lever g having a roller stud that enters a cam groove 9 in a block g fast on shaft (1?.

The wire cutter d is located in a space 15 between the inner plate 9 and the head of the machine, and it has a recess 16, see Figs. 4 and 5, at one side to receive the lower end of the lever d referred to, which is actuated by thepart a of the cam (L The cutter d is moved in a line parallel with the longitudinal axis of the shaft g, and meets the wire at right angles -to its longitudinal axis at a point close to the face of the carrier, and the wire is cut off in nail lengths and left in the carrier so that when a circular movement is given to the shaft g and carrier the nail is turned from a horizontal into a vertical position, and is put under the line of movement of the driver, and the plate g prevents the escape of the nail until it arrives opposite the pas- The head of the machine has connected with it by a screw 17 a stationary cutter 18, see Figs. 4 and 6, which in case the cutter (i fails to act, meets the wire as the carrier is moved circularly, and cuts off the wire leaving a nail in the carrier. This cutter also meets the wire substantially at right angles to its longitudinal axis, and if one cutter fails the other is sure to act and revent any breaking of the arts. The stationary cutter 18 is entirely inc ependent. of the movable cutter (i each performing its severing operation at different times and without the aid of the other. One means of securing this independence of action is by arranging the cutter 18 in such a position relative to the carrier 9 that its cutting edge is at all times 1. In a nailing machine, a circularly mov- M able carrier having a passage to receive wire, a bar having a knife edge at one end in contact with the carrier, means to reci rocate said knife edge across thepassage in t 1e carrier to sever the wire, and means for preventing the severed nail from dropping out of the carrier.

2. In a nailing machine, a cylindrical carrier having a passage to receive wire, a wire cutter in contact with said carrier, means to move saidvcutter in a direction parallel to the longitudinal axis of the carrier and across said passage to sever the wire, means to thereafter partially rotate said carrier to bring its passage into driving position, and means for preventing the severed nail from dropping out of the carrier.

3. In a nailing machine,'a cylindrical nail carrier having a passage to receive wire, a support for said carrier providing a driving passage extending on opposite sides thereof, a cutter in contact with the carrier, means to move the cutter longitudinally of the axis of the carrier and across one end of said passage to sever the wire, and means to thereafter partially rotate said carrier to bring its passage into alinement with the driver passage.

4. In a nailing machine, a driver, a cylindrical nail carrier having a passage to receive the end of a wire, a cutter movable longitudinally of the axis of the nail carrier to sever the wire into nail lengths, means to thereafter partially rotate said carrier in one direction to place the nail in line with the driver and to then return said carrier into nail receiving position, a stationary wire-cutter in contact with said carrier and having a cutting edge at right angles to the cutting edge of the movable cutter, said stationary cutter severing the wire during the rotative movement of the carrier in case the movable cutter fails to completely sever it.

5. In a nailing machine, a cylindrical nail carrier having a nail passage at right angles to its longitudinal axis, means to oscillate said carrier about its longitudinal axis, means to feed a wire into said nail passage, a plate to close one end of said passage when the wire is inserted therein, a driver passage formed in said plate, a driver, a wire cutter,

and means to move said cutter to sever the ssasas 6. In a nailing machine, a carrier comprising a rock-shaft having a circular block to receive the end of the wire, a movable cutter, means to actuate the same parallel with the longitudinal axis of said rock-shaft to cut the wire while the carrier is stationary, means to partially rotate said carrier, and a stationary cutter which in case the movable cutter fails to cut the wire will do so after the circular movement of the carrier has been started.

7. In a nailing machine, a circularly moving carrier having a passage to receive the end of a wire, a su port having a driver passage and adapted to sustain said carrier, means to turn said carrier in said support, a movable nail-throat co-acting with said support and occupying a position to close the driver passage when the end of the wire is inserted in the passage of the wire carrier, and means to' turn said carrier and move said throat to place the hole in the throat in line with the driver passage in said support and in line with the assage in the nail carrier.

8. In a nai ing machine, a carrier adapted to receive the end of a wire, means to move said carrier circularly, a nail throat, and means intermediate said carrier and throat whereby the latter has imparted to it a reciprocating motion while the carrier is being turned to and fro.

9. In a machine of the class described, two plates, a rock shaft provided at its end with a nail carrier having its bearings in and between said plates, one of said plates having a groove at its rear side, a cutter located' in said groove, a lever to move said cutter at right angles to the longitudinal axis of the wire, and means to partially turn said rock shaft to place a nail therein in driving position.

10. In a machine of the class described, two plates, a rock shaft provided at its end with a nail carrier and having its bearings in and between said plates, one of said plates .having a groove at its rear side, a cutter lo-" cated in said groove, a lever to move said cutter at right angles to the longitudinal axis of the wire, means to partially turn said rock shaft to place a nail therein in driving position, a nail throat and means to move it to place the passage therein in line with and then out of line With the path of the driver, and an awl to feed the stock.

11. In a nailing machine, a carrier having a passage to receive the end of the nail, plates embracing said carrier and having between them a vertical passage for the action of the driver, a cutter to sever the wire and leave a nail in said passage, and means to partially turn said carrier and place the passagetherein containing the nail in line with the driver passage, one of said plates preventing the escape of the nail while the carrier is being turned from its nail receiving position into the position from which the nail is driven therefrom.

12. In a nailing machine, a carrier constructed to receive a nail, means to move said carrier and its contained nail into nail-driving position, and a movable nail-throat act ing in conjunction with and controlled by the movement of said carrier.

13. In a nailing machine, a cylindrical carrier constructed to receive a nail, means for rotating said carrier from nail-receiving to nail-driving osition, and a movable nailthroat contro led as to its movement by the rotation of said carrier.

14. In a nailing machine, a carrier having a passage to receive the end of a wire, a movable cutter, means to actuate said cutter and a stationary cutter, said cutters being ar ranged with their cutting edges in contact with said carrier, but at different points, and means to move said carrier whereby it one cutter fails to sever the wire the other will act to sever the wire.

15. In a nailing machine, a carrier having a passage to receive the end of a wire, a cutter constructed and arranged to move. in contact with the carrier and across the end of said passage to sever the wire, means to thereafter move said carrier into driving position, and an auxiliary stationary cutter acting during the movement of the carrier and independently of said movable cutter to sever the Wire in case the movable cutter fails to act.

16. In a nailing machine, a carrier having a passage to receive the end of a Wire, a cutter constructed and arranged to move in contact with the carrier and across the end of said passage to sever the wire, means to thereafter move said carrier into driving position, and an auxiliary stationary cutter acting during the movement of the carrier and independently of said movable cutter to sever the wire in case the movable cutter fails to act, said stationary cutter being also in contact with the carrier but arranged with its cutting edge at all times in a different plane from the cutting edge of the movable cutter.

17. In a nailing machine, an awl, a driver and a movable nail throat, means to actuate said awl to feed the work, means to move the nail throat out of the path of the awl during the feeding movement of said awl and means also actuated by said last-named means for delivering a nail to said nail throat as said nail throat again comes into line beneath the driver.

18. In a nailing machine, an awl, a driver and a movable nail-throat, means to move said nail throat out of thepath of the driver and out of the path of the aWl during the name to this specification, in the presence of Work-feeding movement of the latter, and two subscribing Witnesses.

means connected to said nail throat to move T in timed relation therewith for delivering a SOLOMON CUTTER 5 nail to said throat as it again comes into line Witnesses:

beneath the driver. NELSON W. HOWARD,

In testimony whereof, I have signed my EDWARD H. PALMER.