US8697A - Improvement in file-cutting machines - Google Patents

Description

l 1 vH. THOMPSGN.

A File Cutting Machine. Y No, 8,697. Patented lanyg27, 18.521

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NITED STATES JAMES H. THOMPSON, OF PATERSON, NEW JERSEY.

ilvlPRovEMENT IN FILE-CUTTING MACHINES.

Specification forming part of Letters Patent No. 8,697, dated January 27, 1852.

To all whom. it may concern..-

Beit known that I, JAMES H. THOMPSON,

\ of Paterson, in the county of Passaic and State of New Jersey, have invented certain new and useful Improvements in Machines for Cutting Files; and I do hereby declare that the same is described and represented in the following 1 specification and accompanying drawings.

Good files cut by hand, if made tapering one or both ways, are usually cut finer on the smaller or thinner parts than upon the large part, somewhat in proportion to the size or thickness of the tile, and the chisel, when held in the hand, yields with a compound motion toward the tang, so that its edge moves in a curve and not in a straight line when it is struck with the hammer and raises a tooth, which is very poorly imitated by anymachine heretofore invented for cutting les. The difiiculty with all the machines appears to be that the chisel raises what little tooth it forms by the inclination of its stroke and by scraping toward the tang, and not by being driven under the base of the tooth, so 'as to carry the edge of theohisel in an elliptical curve, so as to raise the tooth 4by lifting it up in the same way that it is effected in cutting les byhand;

but the chisel moving in a straight line with a slight inclination strikes the file and raises a little more burr upon the side of the chisel toward the tang than upon the opposite side, but not sufficient to form aperfect tooth, even if the small burr raised by the succeeding stroke on the opposite side of the chisel did not rise so as to render it very imperfect by standing partly upon it; but as the small burr rises partly upon and contiguous `to the large burr, which is to constitute the eifective tooth of the file, the tooth has not that prominence and sharpness necessary to constitute a good file, neither is its form so perfect as the tooth cut by hand, for as soon as the large burr is worn down by use to the plane of the small burr, so that the small burr comes in contact with the material tiled, the file ceases to out, and is thus worn out much sooner and before it has performed half the service of a handcut file, in which theiburr is all raised upon that side of the chisel next to the tang, and of course the tooth ismore prominent and better shaped than the machine-cut files, which are cut by a chisel moving in a straight line. Hence machine-cut4 files have all'been condem ned by skillful workmen when practically applied to use, for the reasons above stated. Numerous machines have been invented for -cutting files; but they `have all been very defective, and the files made upon them have been very imperfect, for most iiles are `largest in the middle and taper toward each extremity, and scarcely any two file-blanks are exactly of the same form or size. Hence a bed made to it one would hardly fit any other. Consequently the bed must be made of a proper form and the [ile allowed to adjust itself to the bed as it is cut, besides all the machines heretofore have fed the iile uniformly from end to end, making the teeth upon the small part of the file just as far apart as upon the large, andof course requiring the teeth to be cut just as deep upon the small as upon the large part to raise the teeth to an edge which cuts the le so near off upon the thin part as to render it very liable to break.

In some, if not all the machines, the bed and file are traversed, which produces imperl fections of two kinds. First, its being detached from-the other parts of the machine to allow it to traverse, it is not sufliicientlyfirm and solid to receive the blow of the chisel,

and, second, the chisel sometimes pushes it forward `or it recoils from the stroke and does not recover its proper position before the chisel strikes again, thus varying the length of the spaces between the cuts, so as to make the teeth irregular and uneven. Besides, the file tapering each way frbni the center and the teeth cut diagonally across the file, the cutting-edge'of the chisel is nearer to one edge than the other, and when the position of the chisel is changed to cut the iilein the opposite direction it is nearest to the other edgeythus cutting it deepest' at one edge whencut one way and deepest at the otherpedge :when cut the other way, making the teeth 4highest at each edge and lowest in the middleywhere they should be highest, producing avery imperfect file. This defect is remedied most effectually by placing the file upon va rolling bed well known to file-makers; but if a roller is `used just before the chisel to press the files against 'the rolling bed it prevents the rolling bed from eifecting the object intended, for the'flle being thickest in the middle and thinner toward each eX- tremity and the roller presses itagainst the bed just in advance of the chisel, which makes it lay solid upon the bed near where the chisel strikes it the pressure of the roller causes so much friction between the rolling bed andits case as to prevent it from moving freely, and in great measure defeats the object intended to be effected by allowing it to roll. Besides, this roller is placed so as to roll on the center of the lile when the largest part of the file is under it, and so as to tip the bed as far one way as the other, as the thinner parts of the tile pass under it. Consequently the chisel inclines the bed when it strikes upon thethin part, so that the roller does not act against itsV Y center. Then as the chisel is raised the action of the roller partially rights up the bed, and

when the chisel strikes the file it inclines the bed again, and thus the bed is inclined and righted up alternately every time the chisel cuts a tooth, and is kept constant-ly vibrating -with a continued tendency to cut the tile deepest at one edge; and, further, the roller presses the tile against the bed directly under itself and not directly underwhere the' chisel strikes it, but some three-fourths of an inch (or thereabout) from it, so that when the chisel strikes the file it is pressed against the bed right under the chisel and? raises the roller, and as the chisel is raised the roller f presses the file against the bed right underitself again, so that the file is kept vibrating by the action of the rollerand the chisel tending to render it imperfect.

By my invention and improvements I have overcome all the defects above enumerated,

' so that livles cut by my machine are equal to the best hand-cut files. By fitting the rolling bed into the base or bed of Ythe machine, so as to hold it firmly and render it more solid yand not liable to be deranged by the stroke of the chisel upon the tile as it is when traversed upon ways, and traversing the chisel, stock, sliding bar, and the apparatus to operate them in a proper carriage,tl`1e motion of which carriage is graduated sofas to'cut the teeth in proportion to the size of the ile,cnt ting them' nearer together upon the thin part and increasing the distance between the teeth as the size ot' the file increasesA until the chisel gets to the largest place in the tile, then decreasing the distance between the teeth as the file decreases toward the tang, all the variation'in distances between the''teeth of the iile'being effected by an elongated ellipticalshaped cam. Besides, I place an inclined plane behind the chisel-stock which is connected to the sliding bar by a joint which`=allows the chisel to vibrate in aline with the file or at right angles to the edge of the chisel (the pin of said joint being at right angles to the file or parallel to the edge of the chisel) or nearly parallel to the edge of the chisel, or to a line at right angles to the le, so that the inclined plane causes the edge of the chisel to move in a curve toward the tang, when it strikes the ile and raises the tooth by driving under its base rather than by scraping the apex of the chisel.

tooth toward the tang, the chisel-stock being pressed against the inclined plane by a spring, and the pin of the joint connecting the stock to the sliding bar being pressed into its bearings by springs, so as to hold itirmly against vthe end of the bar, notwithstanding what it lnay wear, also allowing the chisel to adjust the rolling bed, and the file upon the bed, as the springs which press against the cross upon the tang of the tile or the slide pressed against the point by a spring, or both combined hold the tile in the exact position the chisel places it by one stroke/until it strikes it again, thereby dispensing with the roller used to press the file against the bed and avoiding the vibrations of the bed and file heretofore menand receiving the stroke.

To enable others skilled in the art to make and use my invention, I will proceed to devscribe its construction and operation, referring to the accompanying drawings7 of which Figure l is an isometrical view. Fig. 2 is a View of the elongated elliptical cam andthe parts connected with it; Fig. 3, the nut connected to the carriage; Fig. 4, a lever, pawls, and ratchet, which may be used to operate the screw.

The same letters indicate like parts in all the figures.

A is the bottom bed or frame, made in the form represented, with two flanges projecting from it, which form the ways A A for the carriage to traverse upon, to be described v hereinafter. The elevation A2 is permanently fastened to the middle of the bed and has a semicircular cavity in it', (represented by the.

dotted lines a (1,) into which the rolling-bed A3 is fitted so as to roll easily either way and allow the chisel, when it strikes the (ile, to bring or adj ust its surface parallel to the edge of the Near the end of -the bed A3 are two pillars (one is represented as broken off) with sufficient space between them for the round part ofthe cross B3 upon the tang B2, (of the tile B2) which cross is fastened to the le by the set-screw B and is pressed against the pillars B B bv the springs ce2 0.2, fastened into the rolling bed at a proper distance from the -there isa slide b, which tits the small end of the tile, being drawn against it by thespring b2, which slide traverses under the brackets b b', which are high enough to allow it to vibrate up and down with the file as it is adjusted to the bed by the chisel.

The carriage which carries the cutting apparatus is made with two sides C C, (one of which is represented as broken off,) fitted to traverse on the ways A A', which sides are connected together by the frame b2 b2 and by the cross-bars C C', forming the bearings of the sliding bar C2, in which it traverses, being raised by the cam C3 upon the shaft D, which shaft turns in holesbored through the sides C C, and has the pulley Dfastened to it, to which the belt is applied to operate the machine. The sliding bar C2 is made with a large bow, in the center of which the cam CSturns and acts against the roller b5, which turns on a pin passing through the slide D2, which fits in the hole b4(boredfron1 the end of theslidingbarthrough to the bow) and is fastened by the set-screw c. The sliding bar C2 has a feather fastened to it which fits a notch in the bar C' to prevent the sliding bar from turning. The lower end of the sliding bar has a semicircular score across it, into which the bearing of the chiselstock E is fitted, so as to vibrate freely, which bearing of the chisel-stock is pressed into said score by two springs, one of which is shown at C4, which springs are drawn against the bearings by screws which pass through them into the end of said bar, so as to hold the stock firmly against the bar notwithstanding what it Wears by being vibrated by the inclined plane D3, against which the stock slides, which inclined plane D2 is upon the bar E, fastened to the sides C C, upon which it may be adjusted by the screws f f', so as to carry the edge of the chisel forward in the curve required to form a proper tooth upon the file and raise the tooth by driving under its base rather than by scraping it toward the tang. The chisel e is fitted into the chiselstock E and secured by the set-screw c', and when the iile has been cut one way the chisel may be turned so as to cut in the opposite direction. The chisel-stock is pressed against the inclined plane by the spring E2, fastened to the sliding bar for that purpose, so as to i press it back as it is drawn up to makeanew F fastened init, and the other end acts against the knob F2 upon the bow of the sliding bar to propel it down with the force required to make the cut. The arm F2, fastened to the shaft F, has the screw G in it., which acts against the arm c2 of the crooked lever G, so as to adjust the pressure of the spring F upon the knob F2. The lever G- vibrates upon the stud G2, fastened into the side C, and the arm c3 has the roller d in it, which travels upon the curved plane G3, fastened to the bed A, which curved plane is designed to vary the pressure of the spring so as to adapt the stroke of the chisel to the width, thickness, and degree of feed orlength of the spaces between the teeth upon the iile.

The gear H upon the shaft D turns the gear H and cam-shaft H2, which shaft turns upon bearings in stands fastened to the side C, one of which stands is seen at H2. The shaft H2 has the elongated. elliptical cam I upon it, which is traversed by the carriage over the `cross-head I', and upon which it acts, forcing down the traverse-rod I2 through the stand K2 (fastened to the bed A) to vibrate the short arm d of the rock-shaft I2, (see Fig. 2,) which turns in stands fastened to the bed Aand vibrates the arm J and traverses therod J', connected to it and to the lever J2, which is fastened to the ends of the friction-strap d2 upon the pulley d3 by two pins, which pass through the ends of the strap and lever, and arranged so that when the lever J2 is moved in the direction indicated by the w it draws the strap cl2 `tight and turns the pulley CF; but when the lever J2 is moved the other way by the spring k, which acts against the stand K2 and pin 7c in the rod I2, pressing it up to the cam I, it loosens the strap d2 so that it slips around the pulley without turning it. The pulley d3 is fastened to the screw J3 and turns in appropriate bearings in the bed A, and traversesthe nut K, fastened by the screw e4 (see Fig. 3) to the frame b2 of the carriage to traverse it. The screw e4 passes through the joint connecting the two parts of the nut togethenand upon which they vibrate when acted by the wedge e5, which forces the upper ends of the nut apart, closing it upon the screw J3 to traverse the carriage. When the carriage has traveled so far as to cut the length of the file, the attendant moves the rod fso as to shove out the wedge e5, when the inclined sides h h of the hook on the rod f draw the top of the nut together, releasing it from the screw, so that the carriage may\be run back, then by pushing the rod fthe hook is pushed off and the wedge pushed in so as to close the nut upon the` screwto start again. The screw may be made to turn more or less at each revolution of the cam by changing thevposition of the stud h in the slot h2 in the lever J2. The apex of the cam I is curved, and as it passes over the cross I it graduates the feed of the carriage and spaces between the teeth upon the filecut, so as to proportion them to the size and thickness of the dierent parts of the same file, the curve of the plane G2 being gradu'- ated so as to vary the strokes of the chisel to correspond with the distance graduated for each tooth by the cam I, and also to the varying Width and thickness of the file.

Instead of the pulley d3 and lever J2 the ratchet-wheel L maybe fastened upon the screw, (see Fig. 4,) which shouldA be fitted to turnfreely in the lever L', (see dotted lines.) and a series of studs n n, fastened in said lever with pawls'm m pressed against the teeth by the springs r r, so that if the lever L is vibrated by the rod J as described, it will turn .the Wheel L and screw by the pawls catching upon the teeth of the Wheel, said paWls being so adjusted as to move the Wheel L if the lever L traverses the pawls a little more than one-fourth of the space allotted to one tooth upon the Wheel L.

I contemplate that a roller may be used insteadA of the inclined plane behind the chiselstock, and also that the slideb may be made to press the cross so hard against the pillarsB B Athat the springs a2 may be dispensed with, or

,ing' a varying amount of motion to the rockshaft, which motion is conveyed through suitable mechanism, substantially such as is described, to the screw, by meansof which a varying rate of travel is communicated to the chisel.

2. The inclined plane or its equivalent, in combination with the jointed chisel-stock or its equivalent, pressed against said plane by the spring E2 or its equivalent, substantially as described.

3. The springs or their equivalents to press the axis of the stock into the scores' in the sliding bar.

4. rlhe springs, or slide and spring, whether used separately or combined, to press the cross against the pillars so that the ile may remain upon the bed in that'position in which it is placed by one stroke of the chisell until it is struck again, thereby dispensing With the roller heretofore used to press the tile against the bed.

In testimony whereof I have hereunto si gned my name before two subscribing Witnesses.

JAMES H. THOMPSON.

Witnesses:

JOHN EVANS, GEORGE L. MEDEN.

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