US190142A

US190142A - Improvement in the art of manufacturing saw-blades

Info

Publication number: US190142A
Authority: US
Publication date: 1877-05-01
Anticipated expiration: 1894-05-01

Description

SSh eets Sheet 1. J. A, HOUSE. ART OF MANUFACTURING SAW- BLADES.

No. 190,142. Patented-May1,1877.

WITNESSES. I v INVEJVI'OR James -fl,.F0we

Marius rnord-mnoamuzn, wAsum'GTou. o..c.

' 5Sheets-Sheec Z. .T. A. HOUSE.

ART OF MANUFACTURING SAW-BLADES. No. 190,142, Patent ed May 1,-1877.

NFETERS, FHOTO LITHOGRAFHEE WASHINGTONv ,D,

sshee'ts-sheem. J. A. HOUSE.- ART OFVMANUFACTURING s 190,142.

AW-BLADES.

Patenpe'dMay 1', I877.

iiz

INVENTOR WITNESSES UNITE-D STATE 1:

Qrr'ro.

JAMES A. HOUSE, OF BRIDGEPORT, CONNECTICUT.

Specification forming part of Letters Patent No. 190.142, dated May 1, 1877 application filed April 11, 1877.

To all whom it may concern:

Be it known that I, JAMES ALFORD HoUsE of Bridgeport, in the county of Fairfield and State of Connecticut, have invented certain new and useful Improvements in the Artof Manufacturing Saw-Blades, and in apparatus therefor, of which the-following is a specification:

My invention chiefly relates to the forming of teeth upon fret or scroll saw blades. My object mainly is to both out and set or completely form the teeth of a saw-blade at a single operation. To this end my improvement consists in forming the teeth upon the blade as it is fed; forward by successive cuts of a chisel or cutter reciprocated at an angle to the edge of the saw-blade, operating in,

or-substantially in, the plane of the blade, and

presented to the blank with its point or edge inclined alternatelyin' opposite directions,-

whereby the teeth are pressed or forced slightly sidewise, to the right and left alternately, as the cuts are made from the edge of the blank toward its center or back.

Another object of my invention is to cut' the teeth by a chisel operating upon a saw-blade edgewise thereof and at an acute angle thereto. To this end my improvement consists in forming the teeth upon asaw-blade by means of a reciprocating chisel moving in the plane of the saw-blade, and operating by successive cuts upon the edge of the blade as it is moved in a path intersecting that of the chisel.

' My object, further, is to form a number of saws from a blank by automatically cutting it up into widths to form the blades at the same time the teeth are being out; to which end my improvement consists in traversing the blank so as to present the saw-blade edge to the chisel for cutting the teeth, as before described, and moving the blank past and in contact with a cutter, to gradually cut the blank, and finally sever the toothed blade therefrom. 7

'My invention also consists in certain novelcohstrnctions of mechanisms and combinations of devices, which will hereinafter specif ically be designated.

The mechanism employed by me in carrying out my invention resembles in some respects that shown anddescribed in another application for Letters Patentof the United States filed by me simultaneously herewith, and entitled improvements in machinery for manufacturing saws.

The accompanying drawings represent a suitable organization of mechanism for carrying out my invention, all my improvements being illustrated thereby. Some of my improvements obviously, however, may be used Without the others, and the invention in part carried out by mechanism differing somewhat in details of construction from that therein shown and herein described.

Figure 1 is a plan or top view; Fig. 2, a side elevation; Fig. 3, an elevation of the side opposite that shown by Fig. 2. Fig. 4 is a View, partly in elevation and partly in transverse section, on the line 1 l" of Fig. 2, representing the blank holding and feeding apparatus. Fig. 5 is a view in elevation, partly in section, of the chisel supporting and operating mechanism on an enlarged scale; Fig. 6, a section on the lines 2 2 of Figs. 2 and 4:, showing thedevices for adjusting the blank and regulating the width of the strips or sawblades out therefrom. -Figs 7, 8, 9, and 10 are diagrams illustrating myimproved method of forming the teeth; Fig. 11, a plan-or'edge view of a portion of a saw-blade with the teeth formed thereon, in the manner represented by the diagrams. inclusive, are on an enlarged scale, to more clearly show the invention.

The mechanism is supported by a suitable base or standards, A A and a strong frame or supporting-beam, A mounted at its ends upon these standards. A saw-blank carrier or holder, B,-is moved endwise of this frame, automatically to present the edge of the blank to a chisel or cutter, operating as will hereinafter be explained.

The carrier'or blank-feeder is represented by the drawings as composed of a body portion or frame centrally recessed and provided with inclined flanges b b at its back, which fit so as to be capable of sliding endwise of the longitudinal supporting-ledge B". (See Fig. 4.) A plate-sprin g, a, resting at its ends in notches in the upper surface of the under bearing of the blank-frame and pressing against the under surface of the lower part of the ledge of Figs. 7 to 11, both the main frame, compensates wear and keeps theupper flange b in proper contact with the ledge. Any other suitable well-known guideway for the carrier obviously may be substituted for that described. A movable or pivoted clamping-jaw or 'vise, O, operated by a screw, 0, serves to hold the blank in a recess between the jaw and inner face of the back of the carrier-frame. (See Figs. 1 and 4.) A soft-steel plate or blank of a size sufficient to form a number of saws rests at its lower end or edge upon a follower, D, in the carrier. This follower is adjusted to regulate the width of the piece to be projected above the carrierframe or vise to have the teeth formed thereon, by means of a screw, D, working in a nut, 01, on the follower. The elevating-screw is suitably supported in a cross-piece, d. at the lower end of the carrier-frame, or in other convenient way.

An indicator and adjusting-wheel, E, secured to the lower end of the screw D, and a spring stop-pin, E, taking into the holes 0 of the wheel, enables the operator to regulate the screw, and, consequently, the upward feed of the. blank, as desired, in a way well understood. Inclined ways or cams e e, (see 'full and dotted lines, Fig. 2,) near the ends of and upon the under surface of the lower guideflange or support 6 vided, for a purpose hereinafter to be explained. The blank-carrier is fed forward step by step by a screw, F, operated by a pawl, f, and a ratchet-wheel, F to which the screw is connected at one end of the supporting-frame. The feeding-screw turns in suitable hearings in a hollow between the upper and lower portions of the longitudinal-projection or ledge B at the side of the framev upon which the carrier moves. A half-n ut or sectional female screw, f carried by a lever, F pivoted upon the carrier, engages with the blank traversing feeding-screw.

When the movement of the carrier is to be reversed by hand, or it is desired to stop the feed for any purpose, the nut is disengaged by rockingthe lever outward. Motion is imparted to the mechanism froma driving-shaft, G, driven by power in any suitable manner, a crank, g, for turning the shaft being shown in the drawings, for the sake of illustration only. An eccentric, H, on the main shaft,

encircled by a strap or ring, 71,, in a well-known way communicates motion to the ratchetwheel F by means of a rod, H connected at one end to the ring, and at the other to the short arm h of a crank-lever pivoted at the juncture of its arms to the frame. .The long arm H of this lever works in a slot near the outer end of a vibrating lever, h turning loosely on the hub of the ratchet-wheel. The pawl f is pivoted to this vibrating lever, and is held up to its work, when in operation, by

spring, f secured atits opposite ends, "respectively, to the lever and pawl.. The feed of the screw F may be regulated by adjusting the connecting-rod H in any desired one of of the carrier, are prothe holes in the short arm of the rocking crank-lever.

A cutter or chisel, I, is reciprocated in a guideway or socket, 1 the longitudinal axis of the chisel being in, or substantially in, the vertical plane of the blank to be operated upon, and the chisel reciprocating above and at an angle to the edge of the blank correspoudin g to the inclination of the teeth. The reciprocating movement is imparted to the chisel by a crank, 1 on the end of the driving-shaft, and a pitman, J, connected with the chisel stock or holder J. The chisel is detachably secured in its holder, so that it may be readily removed. 7

By an inspection of the drawings it will be seen that as the blank (the top edge of which projects above vise or carrier) isfed forward the proper distance for forming a tooth, the chisel descends at an acute angle to the blank and cuts into-its edge, and that as the chisel retracts the blank is fed forward another step to be again operated upon by the chisel on its advance stroke to form a tooth. The mech anism is timed in its movements, so as to operate connectedly and cut a series of teeth to form the saw. The metal to form the teeth is f0106d or pressed up from the edge of the blade, as will be understood by an inspection of the drawings. 7 To sever the saw-blades from the blank gradually and during the time the teeth are beingcut, a cutter, K, (shown as of a circular form,) mounted upon and turning with a stud supported in an arm, K crosses the path of travel of the blank, and severs a strip of the width of a saw from the blank as it is fed forward.

The edge of the cutter, it will be observed, is beveled, so as to cut with but little resistance and slight strain upon the vise.

To leave toothless spaces at the ends of the saw-blade, thechisel is held out of operation during the timethe blank is at and near the beginning and end of its traverse lengthwise of the frame and past the chisel. The cutter for severing the saw-blades from the blank, however, continues in operation from the time the blank first comes in contact with its edge at one end until it passes and clears it at the other. i I

To leave the blanks at the the ends of the -.blades, thechisel guideway or socket l is formed with or securely attached to a pivoted frame, L, rocked or vibrated on apivot, Z, by which it is secured to the projecting topportion of the main frame.

the pivoted socket-frame, a shoulder or projection on the top of this frame abutting against the edge of the plate, when the frame is moved upward. A long plate or flat bar, M, movable endwise in a vertical recess or slot in the main frame, projects downward beneath the frame at its lower end, and carries aroller, M, mounted and turning upona shaft, m, which projects through the bar. A spring, m,

A plate, L, serves. as a stop to limit the upward movement of secured at one end to the-under side of the frame, acts upon the bar with a tendency tothrow it upward, the free end "of the spring 7 bearing upon the shaft on. The inclines e? e (hereinbeforedescribed) of the blank frame or carrier, and those parts -ofthe flange b";

from-these inclinesto the ends of .theframe, allow the rollerto remain in its elevated posi-- tion, as held by'the-spring during part of the traverse of the'bi'ank, but whenthe deepdown andfthechisel-frame depressed-so, as to assume' its operative position. A pinand slot connection (see dotted lines, Fig. 2,) pre-' vents binding oreramping between the bar and chisel-frame, as will bewe'll understood.

So far I havemnly-descnbed mechanism suitable for cutting the teeth, feeding the blank, and severing the saw-blades, but, in

order toset or project the teeth laterally a1 terna'tely to the:rig ht.and leftas they are cut, I impart to the chisel an axial oscillating or rocking motion inits -guidewayor holder, so as to present the chisel to the edge of the blade in such manner that as one cut is made it presses the metal, forming the tooth out in one direction, and the next cut forces the metal of the succeeding tooth in the opposite direction. a

A double-pathed. or two-way cam, 0, is secured upon the main shaft and operates upon the rounded or doubly-inclined sides of a head, P, pointed at both ends, so as readily to pass from one to the other of the cam.- tracks 0 0 on either side of the central flange of the cam. The stud 1), to which the head P is fastened, or with which it is formed, is mounted so as to turn freely in a sleeve or bearing, 1), in one end of a pivoted lever or vibrating arm, Q, supported on the frame by a pivot, q, shown as secured in the plate L. The opposite end of this arm is connected, by means of a universal joint, with a lever secured to the chisel-holder J. This joint is shown as consisting of the arm R, having balls 1' 'r,

one at each end, and sectional sockets or bearings R R one at the end of the arm Q and the other at the outer end of the lever Q, fastened to the reciprocating chisel-stock. To admit of the required oscillating movement of the chisel, its holder is connected with the pitinan J by means of a swiveling coupling, S. (See Fig. 5.) The pivot q may be changed from one to another of the holes in the arm Q and its corresponding hole in the plate L, to rock the cutter more or less, according to the set it is desired to give the teeth.

From the foregoing description it will be obvious that, as the blank or saw-blade T, Figs. 4:, 7, 8, 9, and 10, is moved forward in, a straight line beneath the chisel, the teeth'will be cut and formed, as shown, (see Fig. 11,) with the teeth set and properly beveled. Fig. 7 represents a deep cut as being made, the

surplus metal displaced at one-cut being re moved by the succeeding cut. Fig. 8 shows but a SlighlWBflllOllIlli of metal removed; and

Fig.9 represents alight'cut where no metal is removed. This latter a method of. formingfthe teeth I deem preferable: tion of the chisel it is rocked to proper] y: pre-;

At eachretrac- "sent it to the blank; and at the same time 3 the blank is fed forward therequired distance: {for the nextcut. cued-central or.downwardly-projecting por- I tion N of thepflange strikes' the roller and moves in'rco'ntactwithit, the bar is drawn.

Bymy improvements it will be seen pletc-from a blank, and ready-to betempered, 'thus dispensing with settingia'nd sharpening separately. It is also apparent that both time and labor'are saved bylthe employment ofia 'blank large enough to make a number of saws, and automatically severed into blades mechanism may be arrang'e'd horizontally, .or

at an inclination instead of vertically as shown; the saw-blank carrier might automatically be returned to thestarting-point after forming a series of teethon and severing a saw from the blank; difl'ernt-sized cams might be employed for increasing or lessening the throw or amount of endwise movement of the chisel; the feed of the blank upward in the vise might be accomplished automatically after the cutting of each blade therefrom, ready for the operation of the chisel upon the next; and various changes may be made in the details of the mechanism, such, for instance, as the substitution of the chisel elevating and depressing cam shown in my hereinbet'ore referred to application for the elevating and depressing devices described herein, and by using feed-rollers, as in that application, instead of the vise andcarrier; or the carrier might be traversed by a long rocking arm. The blades would thus be sev- 2. The hereinb'efore-described improvement in the art of manufacturing saw-blades by machinery, which consists in cutting the teeth upon the blank by successive cuts of a chisel operating in the plane of the blank, reciproeating in apath at an acute angle to that traversed by the blank, and acting upon its edge to displace or force up the metal "thereof to form the teeth, substantially in the manner described.

3. The combination, substantially as hereinbefore set forth, of a saw-blank carrier traversed step by step in a fixed path, and a chisel that single chisel is made to form a saw-blade co.n1-"

reciprocating at an acute angle to and in the plane of the blank, whereby the teeth are formed by forcing up or displacing the metal at the edge of the blank by cutting fromthe edge inward, as set forth. 7

4. The combination, substantially as hereinbefore set forth, of a traversing saw-blank carrier, a reciprocating chisel, and the blanksevering cutter, whereby a strip to v form, a saw-blade is gradually severed from the blank as the teeth are being cut on its edge by the chisel. p

5. The combination, substantially as hereinbefore set 'forth, of atraversing saw-blank carrier, a reciprocating chisel acting upon the edge of the blank to cut the teeth, and the adjustable'chisel-carrying frame automatically elevated and depressed to throw the chisel out of operation at the ends of the blank, and holdit in working position to cut the teeth centrally upon'the blank.

- 6. The combination, substantially as hereinbefore set forth, of the supporting-frame, the blank-carrier traversing endwise thereof, and in which carrier the blank is clamped and adjusted, the chisel for cutting the teeth, and

the cutter for shearing the blades'from the blank above the carrier.

7,. The combination, substantially as herea cam on the driving-shaft, andv the universal joint connection between said arm and an arm on the chisel-holder, whereby the chisel is reciprocated and rocked axially, and its frame left free to be elevated and depressed to throw the chisel out of and into operation.

In testimony whereof I have hereunto subscribed my name.

JAMES ALFORD HOUSE. Witnesses CHARLES H. DIMOND, FBEDK..L. HEARSON.