US427230A - Making barrels - Google Patents

Description

(No Model.) n 9 Sheets-Sheet 1.

H. J. GILBERT.

MAKING BARRBLS.

NO- 4271230- Patented May 6, 1890.4

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(No Model.)

H. J. GILBERT. MAKING BARRBLS.

No. 427,230. Patented May 6, 1890.

THE News paens co., uovo-uma., WASHINGTON, o. c.

9 sheets-sheet 4.

(No Model.)

H. J. GILBERT. "MAKING-BARRELS.

Patented May 6,1890.

Witwen@ o ras-co., mormu'mo., wAsnmoTon, n. n:4

9 Sheets-Sheet 5.

(No Model.)

H. J. GILBERT. MAKING BARRBLS.

No. 427 EL (No Model.) 9 sheets-sheen .6. H. J. GILBERT. MAKING BARRELS.

N0427,230. Patented May 6, 1890.

ZIl

' 9513 Zz'd awww we News paren; col, Puo-rauwe., mamma-row, n. z:A

(No Moda.) 9 sheets-sheet 7.

H. J. GILBERT.

MAKING BARRELS.

Patented May 6, 1890.

THE nonms ruins co., nuovo-umm, wnsnmmuu, uA c.

9 Sheets-.Sheet 8.

H. J.' GILBERT.

MAKING BARRBLS.

(N0 M'del.)

Patented May 6, 1890.

1u: Nunms versus co.. worommo., wunmn'mn, u. c.

(No Model.) S'Sheets-Sheet 9.

H. J, GILBERT.v MAKING BARRE-LS.

No. 427.230. Patented May 6, 1890.

Nrrnn HENRY J. GILBERT, OF SAGINAW, MICHIGAN.

MAKING BARRELS.

SPECIFICATION forming part of Letters Patent No. 427,230, dated May 6, 1890.- Application tiled September 5, 1889. Serial No. 323,068. (No model.)

To all whom, it may concern.-

Be it known that I, HENRY J. GILBERT, a citizen of the United States, residing at Sagi naw, in the county of Saginaw and State of Michigan,have invented certain new and useful Improvements in the Art of Making Barrels, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specification.

My invention consists in a novel and iinproved method or process of making barrels, by which they may be manufactured much more cheaply and expeditiously. than heretofore.

Various forms of apparatus may be utilized for carrying out my invention, though I have designed a special machine for that purpose, which machine forms the subject-matter of a separate application, bearing Serial No. 286,028, filed September 21, 1888.

My present invention may be best understood from a description ot the construction and an explanation of the mode of operation of that machine, which is illustrated in the accompanying drawings, where- Figure 1, Sheet 1,represents a plan view of the machine. Fig. 2, Sheet 2, is a side elevation of the same. Fig. 3, Sheet 3,is an end elevation of the same. Fig. 4, Sheet 3, is an enlarged detail side elevationof the barrelformer and connected parts. Fig. 5,`Sheet 8, is a detail sectional view of a corner of the former at its edge. Fig. 6, Sheet 4, is a side elevation, partly in section,of the hoop-metal supports and the devices for bending, shearing, and looping the hoop metal at one stage of the operation. Fig. 7, Sheet 4, is a similar view ot' the bending, shearing, and looping devices at a different stage of the operation. Fig. 8, Sheet 4, is a similar view of the same parts at another stage of the operation. Fig. 9, Sheet 4, is a similar view of the same parts at another stage of the operation. Fig. 10, Sheet 4, is a sectional end elevation of one of the hoop-metal reels and its tension device. Figs. 11 and 12, Sheet 5, are enlarged side and end elevations, partly in section, of the corner of the machine at the hoop-feeding end. Fig. 13, Sheet 5, is an enlarged elevation in detail of the clutch mechanism. Figs.

14,'15, and 1G, Sheet 5, are details in trans- 4stage of the operation.

verse section of the'same, showing the relation of the parts at different stages of the operation. Fig. 30, Sheet 5, is a sectional elevation of one end of the wiper-block and its guide. Figs.17 and 18, Sheet 6, are enlarged side and end elevations of the punching mechanism. Figs. 19 and 20, Sheet 6, are enlarged side and end elevations of the devices for attaching the hoops to the staves. Fig. 21, Sheet 6, is an enlarged bottom plan view of one Aof the punches. Fig. 22, Sheet 7, is an enlarged elevation, partly in section, of the clinching-arms and adjacent parts at one Fig. 23, Sheet 7, is a similar view of the same parts at another stage of the operation. Fig. 24, Sheet 7, is a similar View of the same parts at another stage of the operation. Fig. 25, Sheet '7, is a plan view in section of the clamping and clinching plungers and clinching-arms. Fig. 3l, Sheet 7, is an elevation, partly in section, ot' the completed barrel. Fig. 26, Sheet .8, is a perspective view of the barrel-former and stave-feeder- Fig. 27, Sheet 8, is a plan view of the former at its jointing-slot. Fig.

28, Sheet 8, is an end elevation of the lower part of the machine, representing modifications in the stave-cutting apparatus. Fig. 29, Sheet 8, is an enlarged transverse section in detail of the former at the jointing-slot, showing the cutter and its guides. Fig. 32, Sheet 9, is a side elevation, partly in section, of the staple forming and driving devices. Fig. 33, Sheet 9, is an end elevation of the same, showing the wireefeeding and tension devices of Fig. 82. Fig. 34, Sheet 9, is an end elevation, partly in section, of the staple forming and driving devices of Fig. 32. Fig. 35, Sheet 9, is a side elevation, partly in section, of the nail fastening and driving devices. Fig. 36, Sheet 9, is an end elevation, partly in section, of the same. Fig. 37, Sheet 9, is a detail end elevation of the nail-trough and connected devices. of the barrel. Fig. 89, Sheet 1, is an enlarged transverse section through adjacent staves, showing the manner of bending down and securing the looped and connected ends of the hoops. before the looped and connected ends are bent down and secured. Figs. 41 and 42, Sheet l, are plan views of the hoops of Figs.

Fig. 38, Sheet 1, is an end elevation Fig. 40, Sheet 1, is a similar Viewl 39 and 40, respectively. Fig. 43, Sheet 2, is an enlarged sectional detail of one end of the barrel, showing the manner of securing and supporting the head therein.

The same letters and figures of reference are used to indicate identical parts in all the figures.

The frame-work of the machine is composed of a bed-plate A, uprights B, crosssills C, and top horizontal I-beams D, all firmly bolted or united together to form a rigid frame-work. Suitably journaled in boxes d, secured upon the beams D, are horizontal parallel shafts E, (in this instance four,) and running lengthwise of the machine. Simultaneous and uniform speed and revolution are imparted to the shafts E by a transverse worm-shaft F, carrying worms b, meshing with worm-wheels c upon the shafts E, Fig. 3, which worm-shaft is suitably journaled in boxes d and is driven by a pulley G or other suitable means.

In alignment and concentric with each of the shafts E is a shaft H, supported and journaled in suitable boxes e and connected to its coincident shaft E by a clutch-collar f tight upon the shaft E (see Figs. 2, 13, let, and l5) in the following manner: The end of each shaft H wit-hin the collar j has a seinicircular key-seat g, in which is fit-ted a semi-cylindrical key h, whose projecting end is formed into a curved arm z', between which and a bore j in the shaft H is confined a spiral spring 7c, whose office is to turn the keyin its seat at a given moment and by means to be presently explained to cause it to partially enter a coincident seat Z in the bore of the collar f, thereby forming a clutch to lock the shaftE to the shaft H for imparting revolution to the shaft H. The means for actuating the keys 7L simultaneously to engage and release the shafts E and H are as follows: Under each collar f is a sliding dog or wiper-block m, supported in upright guides n, and having at one end an enlarged head u", adapted to be projected under the path of the superimposed arm t' by any suitable spring, as o, and having at its other end a beveled nose p, arranged to be engaged by a pin projection q upon a disk r, of which there are four, secured to a transverse shaft I, suitably journaled upon the shafts E, ad,

justed to the collar f. One of these disks r is a worm-gear and meshes with a worin s upon its adjacent shaft E. worm is such that the shaft E may have any desired number of revolutions for each single revolution of the shaft l. At each complete revolution of the shaft I the pins q siinultaneously engage with the beveled noses of the wiper-blocks m and force them back out of engagement with the arms z' previous to or just at the moment the key-seats g and Z are coincident, so that the springs 7c turn the keys h simultaneously to effect the clutch engagement between the shafts E and H. The pins q in passing instantly release the wiper-blocks m,which are proj ected forward by their springs o, thereby bringing theirl enlarged heads u The pitch of the.

in the path of the arm z' until, the shafts H having made one complete and simultaneous revolution, the arms z' come in contact with and are pressed in by the heads 10 of the wiper-blocks, and the keys h are turned back into their seats g to release them from the collars f and so break the clutch engagement. Th us it is seen that for every given number of revolutions of the shafts E the shafts H are given a single and simultaneous revolution.

The above constitute the driving mechanism for actuating the various parts of the machine in the order to be presently explained.

The hoops J for uniting the staves are in this instance four in number, and are formed from continuous pieces of hoop metal carried upon reels or spools K, secured to the rear of the framework and held from paying out too fast by any suitable tension device or brake L. (See Fig. l0.)

Secured rigidly upon the rear sill C under each shaft H is a combined anvil-block and guide M, having a flat horizontal top and a central recess t with vertical walls. Fitting snugly within the recess of each block M is a vertically-reciprocating die-block N, carried by an upwardly-extending arm O, passed through suitable guides and having at its top a pin u, Fig. ll, extending into a cam-groove c in the face of a disk P, secured upon the adjacent shaft H. Embracing the forward sides of the block N are two slides w, Figs. 2, G, 7, 8, 9, and ll, connected by a vertical web extending transversely across the block at its extreme forward edge and serving as a male die in connection with the block N, as presently explained. These slides are secured to the block by screws y, passed through horizontal slots a', and are held forward so as to bring the forward walls of the block and die @c in verticalalignment by springs cZ, confined between the ends of the slides and lugs c upon the blocks N. Justover each of the blocks M and N is a vertically-reciprocating plunger-die Q, confined in suitable guides in the frame.' The upper end of each plunger Q extends between the disk P and a second disk R upon the shaft H and has projecting pins d entering coincident cam-slots e in the inner faces of both disks, said slots and pins being of such depth and length, respectively, that the plunger Q, in addition to its vertical reciprocation, may have a horizontal reciprocation imparted to it by an arm S, pivoted at its lower end to the block M, as atf, connected to the plungerQby a pin g', passed through a vertical slot 7L', and having at iis upper end apin t", entering a peripheral camslot j in an enlargement or collar T upon the shaft M between the disks P R, as seen in Figs. l, 2, ll, and 12.

The under side of each plunger Q is recessed transversely, as at 7a', Fig. 7, to receive the male die a1, and also to contain a followerblock Z', which has pins m on each side projecting through vertical slots n', and which IIO pins are engaged by any suitable springs upon the side of the plunger Q. The depth of the recess 7c is sufficient to receive both the follower Z and the die Upon the under forward side of each plunger Q is a horizontal clamping-follower U, with vertical slots p,through which are passed attaching and guide screws g. These followers are normally held with their rear vertical sides in alignment with the forward wall of the recess k by springs r', secured to the plungers Q and bearing against the forward ends of the followers, as shown. The normal position of the parts just described when at rest is shown in Fig. 6, and in starting the machine for the first time the strap-iron to form the first hoops J is drawn forward from the spools K by hand and is placed over the blocks N and M, with the forward ends held between any suitable guides, as pins s', Fig. 9, so as to bring them directly over the dies m and under the recesses k.

. backward by N ow supposing that the shafts H are simu1- taneously set in motion to give them one complete revolution, as before described,the shape of the cam-slots and the adjustment of the parts are such that the plungers Q will iirst descend until the followers Urest upon the ends of the hoops J and clamp them to the blocks M, as seen in Fig. 7 The blocks N, with their dies cc, will then ascend, bending up the hoops and forcing' them into the recesses lo', as seen in Fig. 1l, thereby forming right-angular lower bends and upper loops in the hoops. Just as the diesand blocks N have iinished their upper stroke to form the bends and loops in the hoops the plungers Q are moved the arms S, through the action of the cam-slots j', and the hoops are sheared in line with their rear extensions by plates t', as seen in Fig. 8, the followers U remaining stationary for that purpose,while the plungers Q slide back upon them, and the dies with their slides w, move back upon the blocks N againstthe resistance of theirsprinfrs b. rlhe moment the shearing` is effected vertical clamping-rods V, Figs. 9 and l1, suitably guided and having' at their upper ends pins u', confined in cam-slots t" in the forward faces of the disks R, and preferably having rubber blocks w secured to theirlower ends, are brought down upon the hoops in front of the followers U and clamp them to the blocks M. If desired, rubber blocks may be recessed in the blocks M just under the lower ends of the clamping-rods V to aid in more securely holding the hoops. As soon as this clamping is effected the plungers Q are given a slightly-upward movement by the disks P and R and a forward horizontal movement by the arms S, and, sliding forward over the followers U, bring the sheared parts of the hoops and the slides w and dies m to the positions they occupied before the shearing began, at which moment the blocks N descend to their normal position of rest and withdraw the dies :t from the loops in the hoops, and

the plungers Q, progressing still farther forward, carry with them the followers U and bring the looped ends of the hoops over the upright ends, as seen in Fig. '9, at which moment, the sheared ends having cleared each other, the followers Z, by the action of their springs o', force the looped ends of the hoops out ot' the recesses 7e and down over and straddling the bent-up port-ions, as seen in Fig. 6. The clamping-rods V are then raised simultaneously with the plungers Q and their followers U, and the shafts H have at this moment effected one complete revolution and are stopped by the means before described. This operation of bending, shearing, and engaging the looped and bent ends of the hoops occurs at every revolution of the shafts H, as will be readily understood.

Assuming', as before, that the hoops have been introduced for the iirst time, the shearedoff ends are detached and thrown away, and the hoops with their looped ends are drawn forward between guide-pins y', Figs. 2, 17,' and 18, upon blocks carried by the sill C of the middle uprights B and under and between pairs of punches a, under each shaft E, secured to vertical slides W, confined in suitable guides X, secured to the frame-work, and actuated by adjustable hinged links Y, whose upper boxes A are confined upon cranks or eccentrics Em upon the shafts E in such manner that each revolution of the shafts E causes the punches a to rise and fall simultaneously. The under sides of the punches ca have V-shaped dies b, (see Fig. 21,) which, acting in connection with correspondingly-shaped female dies q on the sill C, cut through the hoops to form attaching-points c (see Figs. .tl and 42,) which in the further operation of the machine, as presently explained, are forced down into the barrel-staves and serve to unite the latter and the hoops together. The punches are made at such distances upon. the hoops that two of the attaching-points d of each hoop are employed for and forced into each stave. On the passage from the bending and shearing devices to the punches the two middle hoops are passed under vertically-adjustable takeup rollers B, arranged out of the line of travel of the length to the inner hoops to accommodate the bilge of the barrel.

Secured to cross-bars C at each side of the' machine, between the middle and front uprights B, Figs. 2, 4, and 26, is the barrel-former D, upon which the rectangular staves E, held upon an inclined table F", arc forced one by one, are bent to form the bilge of the barrel, have their edges sawed or cut and iittcd together to form close joints, and have 'the hoops secured to them to hold them together in the following following means:

The barrel-formerD manner and by the is substantially semicylindrical and extends transversely across the machine, with a central vertical slot z for TOO IIO

outer hoops, to give greater the passage of the dressingsaw or cutter-head.

Its rear lower edge is straight and horizontal, from which point upward to the slot it assumes the bilge shape of the barrel, as seen in Fig. 26. lt is preferably removable for the substitution of other formers of different shape, as where more, less, or no bilge is required. lts upper edges have guide-fianges e, to which are fitted the curved feedingarms f, connected at their lower ends by the cross-bar g, having pins 7L, uniting` it to' the lower ends of links G ,whose upper ends are pivoted to bellcrank levers ll on each side of the machine, pivoted, as at t, and having at their upper ends peripheral cam-slots 7a collar l on each of the outer shafts E. The horizontal transverse slide-bed l, Figs. 2 and 3, for the saw-arbor frame J, which is dovetailed thereto in the usual or any suitable manner, is hung at each end upon horizontal cam or eccentric shafts l journaled in lugs or ears L upon the bed-plate A. These shafts K have crank-arms M at one end, from which extend upwardly arms N, whose upper ends are provided with pins confined in coincident cam-slots in the inner faces of two disks O upon each of the outer shafts E.

The saw-driving shaft P, provided at one end with a driving-pulley Q, is j ournaled in hangers R, extending downward from the base A, Figs` 2 and 3, and it has upon it a loose sleeve S, ,to which is attached an upright frame T, in the upper end of which are journaled guide-pulleysv U for the driving-belt V,which passes over them from the pulley W on the saw-arbor and down around a pulley X on the driving-shaft P. Two pivoted arms Y extend from the saw-arbor frame J to the frame T between the pulleys U. The saw-arbor. carries a saw A, which extends up and nearly fills the width of the slot e" in the former D.

B is an arm pivoted at its lower end to a projection C from the sleeve S and at its upper end to an arm D, suitably guided in the frame, and provided at its upper end with pins confined in coincident cam-slots in the inner faces of two disks E upon the outer shaft E in such manner that each revolution of said shaft will partially oscillate the sleeve S and vibrate the frame saw to travel, through the medium of the arms Y, through the slot in the former Dl entirely across said former and back again, as will be readily understood. The cam-slots in the disk O are so shaped that in the backward cutting travel of the saw across the former D" the bed l will be raised, through the medium of the eccentricshafts K and arms N, to causel the saw to follow the bilge of the former and cut the edge of the stave projecting over the slot through its thickness in an enlargement or and will be lowered out of cutting contact at the end of its backward and forward travel.

The operation of feeding the staves upon the former is accomplished bythe arms f pins j, confined in T, to cause thethrough the medium of the bell-cranks H an d links G, and the cam-slots in the collars Z are so shaped that at the beginn-ing of the revolution of the shafts E the lower ends of the arms f are below the lower stave upon the table F, and the rst movement is to push said stave from under the others and up upon the former D. At the beginning of its upward travel the stave is caught under spring guide-arms F, Figs. 4L and 26, whose upper ends are secured to the frame-work on each side and extend forward and down just within the path of the outer hoops and then curve back above and parallel to the former sufficiently to permit the passage of the ends of the stave under them, and whose opposite rearwardly and forwardly bent up ends are connected to adjusting-screws G for regulating the pressure of the spring guidearms upon the ends of the stave, and as it (the stave) is carried on up it is bent by these springs to conform to the bilge of the former and is brought with its bent forward edge overlapping the slot, as seen by the dotted lines, Fig. 271 whereupon the action of the feeding arms is stopped while the saw travels through the slot, as before described, and as it comes back cuts off the projecting edge of the stave, if it be the rst one, or both staves after the iirst. As will be seen from Fig. 27, the staves abut together at their ends, While, owing to the bilge of the former D, they are some distance apart at their center, and the saw will therefore cut away more of the edges of the staves at their ends than at their center, thereby causing their edges when brought together to fit snugly and form a perfeet joint the entire length of the staves. As soon as the saw has completed its cutting the stave is further slightlyv advanced by the feeding-arms sufficiently to close the joint between the two staves, an d then the fastening of the hoops to the staves thus jointed is accomplished in the following manner and by the following means: J ust over each hoop as it crosses the slot in the former D and under each shaft E, Figs. 2, 19, 20, 22, 23, 24, and 25,is a clamping-plunger, in this instance composed of two bars H, supported in suitable vertical guides and having their upper forked ends m provided with pins n, confined in coincident cam-slots o upon the outer faces of two disks I upon the shafts E. Between the sides of the plunger l-l is a clinchin g-plun ger J con iin ed in a vertical guide and having its upper end provided with pins p, confined in coincident cam-slots q in the inner faces of the two disks l. The lower end of the plunger J has projecting ears 0" on each side, to which are pivoted links K, whose lower ends are pivoted to IOO IIO

bellcrank clincher-arms L pivoted at r to and between the sides of the plunger l-l. rhe plungers H have a transverse recess s, Fig. 25, at their lower ends to receive the engaged looped and bent ends t of the hoops as they come under the plungers, (see Figs.

ing in of the attaching-points d.

22, 23, 24, and 25,) and the clinching-jaws are curved, as shown, and made to conform on their lower faces to the shape of the attaching-points c of the hoops.

At the beginning of the operation the hoops are drawn forward by hand from the punches and are placed in proper positions (see Fig. 24) over the first stave, which has been elevated and sawedA -The cam-slots in the disks I are so shaped that the plungers H are rst lowered (see Fig. 19) to clamp the hoops to the stave, and then the plungers J are lowered, thereby Vibrating the clincher-arms p Lf (see Fig. 23) and causing their clinchingpoints to force the attaching-points d of the hoops intojthe wood to fasten the hoops to the stave. After the first. stave has been sawed and the hoops fastened to it the feeding of the hoops is automatic and is accomplished bythe forcing forward of the attached staves, which draw the hoops with them by the feeding of each new stave. lVhen the first and second staves and all others after them are sawed and joined, both clinchingarms come into play to force two attachingpoints C of each hoop into both staves adjacent to the slot in the former D,and in such manner, (see Fig. 23,) owing to the curve of the clinching-arms, that the joints of the staves are forced tightly together by the forc- The inner hoops are guided over suitable adjustable take-up rollers, as u fu, Fig. 2, between the punches and former D, to aid in giving them the proper length to suit the bilge of the barrel. lVhen sufcient staves have been united to form a barrel,'they are disconnected from the other staves at the point where the hoops are looped and temporarily jointed, and the iiexible barrel-blank thus formed is removed and bent into barrel shape around any suitable former and the opposite ends of the blank are secured together to form an open-ended barrel, preferably by reuniting and bending down the looped and bent ends of the hoops and fastening them by any suitable means, as by a staple S. (See Fig. 39.) For the purpose of securing the barrel-heads in position in this openended barrel I attach to the barrelblank-preferably after it comes from the machine and before it is bent into barrel shape-suitable supports for the heads. I have found it convenient to employ for this purpose four or more pieces of strap-iron M, Figs. 31, 38, and 43, which are secured in any s-uitable manner to the inner sides of four equidistant staves in the barrel. These straps h run lengthwise of the staves and project some distance from their ends, and they are bent to form ledges a, upon which the inserted heads N rest, as shown. After the insertion of the heads rings or wooden hoops O are placed upon sired, the rings O may be omitted and the projecting ends of the straps may be bent down flat upon the heads tosecure them in place.

My improved method of building barrels by iirst forming a flexible blank, which is afterward bent into barrel shape and provided with heads, enables the barrels to be shipped by the manufacturer in the form of blanks as they come from the machine, so that they can be packed very closely, and they can be set up and the heads inserted by the user in the manner described.

Vhile, as stated at the beginning of the specification, different forms of apparatus may be employed in practicing my invention, yet even where a machine substantially like that illustrated in the drawings of this application is used there are many modifications which may be made in its construction. For instance, instead of the saw for cutting off the edges of the staves at the slotin the former D, I could employ the cutter-head c, Figs. 28 and 29, which would be carried within the slot e in the former D upon a spindle cZ, journaled in a block or cross-head e, hung upon rollers f ,coniined in coincident endless slots g upon the under side of the former D and extending across the same, the upper.

parts of which slot would be parallel with the bilge of the former D. The cross-head e would be connected by an arm h, pivoted to the upper end of the vibrating frame T, but rigidly connected to the cross-head. The lower end 0f the spindle c would be provided with a grooved pulley vl, from which a drivingcord j extends overtwo loose grooved pulleys o, side by side upon a spindle Z in the upper end of the frame T, and thence down around the pulley X, suitably grooved for that purpose.. Vithin the slots g at one end are gravitating dogs m, which permit the passage under them of the rollers f at the end of the stroke of the vibrating frame T and guide them up into the upper part of the slots to lift the cutter-head into cutting contact with the staves on the return-stroke of the vibrating frame, as will be readily understood.

Again, instead of punching the hoops to form the retainingpoints d, the devices shown in Figs. 32, 33, and 34 might be employed for forming staples and driving said staples across the hoops into the staves tosecure the hoops to the staves. In said figures n is a vertical guide-socket, into which the wire 0 for forming the staples is fed and contains a shearing and bending plunger 29', acting in connection with an anvil-block q, contained in a lateral guide -housing fr, forming part of or attached to the guide fa. Between the two parts of the bendin g-plun ger is a driving-plunger S, connected by a pivoted bell-crank t to the anvil q in such manner that as soon as the wire has been sheared and bent to form the staples the driving-plunger in commencing its descent to IOO IIO

drive the staple draws the anvil q back out of the way. Thereupon the staple is driven across the hoop into the stave and through the same, if desired, and may have its lower ends clinched by anvil -blocks fw" in the former D. Any suitable devices for feeding in the wire 0 may be employed-such as the rollers ac" gjm-held in engagement with the wire by spring-tension an d operated only upon the upstroke of the plunger p", through the medium of the arm 00', gravitating dog l, carrying a small dog 2, engaging with a ratchet 3 upon the feed-wheel com; or again, instead of the retaining-points d, or the staples for ,uniting the hoops to the staves, ordinary tacks or nails might be used, as shown in Figs. 35, 36, and 37. In this latter case the hoops would simply have small holes punched through them by the punching mechanism and the nails would be fed by a vibrating trough 4 into a guide-socket 5, 'containing pivoted eXpansible jaws 6, between which a reciprocating plunger 7 would play to drive the fed-in nails through the holes in the hoops into the staves, as will be readily understood.

The plunger for the staples and nail mechanism would be actuated from the shafts E by the means described for the clinching and clamping plungers. It will also be understood that it is not at all necessary that my improved method of making barrels should be carried out in a machine in which the entire operation of feeding in the staves, bending and jointing them, forming the.hoops from continuous pieces of hoop-iron, and looping, connecting, and punching the sameJ and attaching them to the staves is automatically performed in one connected machine, for many of the various novel and useful subcombinations of elements may be independently employed in machines of different construction and arrangement. For instance, the devices for attaching the hoops to the staves may be used independently of ythe cutting devices for jointing the staves, as Where the latter are jointed before being fed into the machine, While both these sets of devices may be used without the devices for cutting the hoops from continuous pieces of metal and bending, looping, connecting, and punching the same, as where previously-formed hoops are fed into the machine by hand or otherwise. Again, while I have shown and described the barrel-former as of a peculiar bilge shape in order to give such shape to the barrel, I do not wish to be understood as limiting myself to any particular shape of the former, for it may be changed without departing from my invention, and under some circumstances might even be a simple table or anvil-block to support the staves as they are passed beneath the devices for attaching the hoops to them, and where the traveling cutter' is employed to joint the staves as they are passed over the former, if the latter is flat or has a straight longitudinal surface, the mechanism for raising and lowering the cutter to follow the line of a bilgeshaped former would of course be dispensed with. Again, while I have shown a series of take-up rollers or wheels B engaging the two middle hoops ofthe series between t-he cutting devices and the former to make the path ol travel of said middle hoops from the cutting devices to the former longer than that of the outside hoops, for the purpose of giving greater length to said middle hoops to accommodate the bilge of the barrel, this result may 'oe accomplished in a variety of ways, either with or Without the use of special devices for that purpose; also, the punching devices, which are needed in heavy work, may, if desired, be dispensed'with where the Work is light and very thin hoop-iron is used, in which event the devices for attaching the loops to the staves on the former can themselves be made to do the punching.

Having thus fully described my invention, I claiml. In the art of barrel-making, the method of forming a barrel-blank, consisting in feeding the staves and strips of hoop metal over a former and jointing the staves and attaching the hoops to them as they are fed over said former, substantially as described.

2. In the art of barrel-making, the hereindescribed method of forming a barrel-blank, consisting in feeding the staves and strips of hoop metal over a former and attaching the hoops to the staves by forcing portions of the hoop metal into the staves as theyare passed over said former, substantially as set forth.

3. In the art of barrel-making, the hereindescribed method of attaching the hoops to the staves, consisting in passing the staves and hoops beneath clinching-plungers and forcing points of the hoop metal into the staves and clinching them therein, substantially as set forth.

4. In the art of barrel-making, the hereindescribed method of forming an open-ended barrel, consisting in feeding the staves and strips of hoop metal over a former and attaching the hoops to the staves as they are vpassed over said form er to form a flexible barrel-blank, and then bending said blank into barrel shape and securing its opposite ends together, substantially as set forth.

5. -In the art of barrel-making, the method of forming an. open-ended barrel, consisting in feeding the staves and hoops over a former and jointing the staves and attaching the hoops to them as they are vpassed over said former to make a flexible barrel-blank, and then bending said blank into barrel shape and securing its opposite ends together, substantially as described.

G. In the art of barrel-making, the method of forming an open-ended barrel, consisting in attaching the hoops to the staves by forcing portions of the hoop metal into the staves to form a fieXible barrel-blank, and then bend- IOO IIO

22, 23, 24, and 25,) and the clinching-jaws are curved, as shown, and made to conform on their lower faces to the shape of the attaching-points d of 'the hoops.

At the beginning of the operation the hoops are drawn forward by hand from the punches and are placed in proper positions (see Fig. 24) over the first stave, which has been elevated and sawed. The cani-slots in the disks I are so shaped that the plungers ll are first lowered (see Fig. 19) to clamp the hoops to the stave, and then the plungers J are lowered, thereby vibrating the clincher-arms L (see Fig. 23) and causing their clinchingpoints to force the attaching-points d of the hoops into the wood to fasten the hoops to the stave. After the first stave has been sawed and the hoops fastened to it the feeding of the hoops is automatic and is accomplished by the forcing forward of the attached staves, which draw the hoops with them by the feeding of each new stave. )Vhen the first and second staves and all others after them are sawed and joined, both clinchingarms come into play to force two attachingpoints d of each hoop into both staves adjacent to the slot in the former D, and in such manner, (see Fig. 23,) owing to the curve of the clinching-arms, that the joints of the staves are forced tightly together by the forcing in of the attaching-points c. The inner hoops are guided over suitable adjustable take-up rollers, as u o, Fig. 2, between the punches and former D, to aid in giving them the proper length to suit the bilge of the barrel. Then sufficient staves have been united to form a barrel, they are disconnected from the other staves at the point where the hoops are looped and temporarily jointed, and the flexible barrel-blank thus formed is removed and bent into barrel shape around any suitable former and the opposite ends of the blank are secured together to forni an open-ended barrel, preferably by reuniting and bending down the looped and bent ends of the hoops and fasteningthem by any suitable means, as by a staple S. (See Fig. .39.) For the purpose of securing the barrel-heads in position in this openended barrel I attach to the barrelblank-preferably after it vcomes from the machine and before it is bent into barrel shapesuitable supports for the heads. l have found it convenient to employ for this purpose four or more pieces of strap-iron h Figs. 3l, 3S, and 43, which are secured in any suitable manner to the inner sides of four equidistant staves in the barrel. These straps h run lengthwise of the staves and project some distance from their ends, and. they are bent to form ledges ct, upon which the inserted heads N rest, as shown. After the insertion of the heads rings or wooden hoops 0 are placed upon the heads and snugly fit the inside of the barrel, and the projecting ends of the straps M are bent down over them and secured to the heads, as secn at 6', Figs. 3l. and 43. If desired, the rings 0 may be vomitted and the proj ecting ends of the straps may be bent down fiat upon the heads to secure them 1n place.

My improved method of building barrels by first forming a fieXible blank, which 1s afterward bent into barrel shape and provided with heads, enables the barrels to be shipped by the manufacturer in the form of blanks as they come from the machine, so that they can be packed very closely, and they can be set up and the heads inserted by the user in the manner described.

Vhile, as stated at the beginning of the specification, different forms of apparatus may be employed in practicing my invention, yet even where a machine substantially like that illustrated in the drawings of this application is used there are many modifications which may be made in its construction. For instance, instead of the saw for cutting off the edges of the staves at the slot in the former D, l could employ the cutter-head c, Flgs. 28 and 29, which wouldbe carried Within the slot z in the former D upon a spindle d, journaled in a block or cross-head e, hung upon rollers f ,confined in coincidentendless slots g upon the under side of the former D and extending across the same, the upper parts of which slot would be parallel with the bilge of the former D. The cross-head e would be connected by an arm h, pivoted to the upper end of the vibrating frame T, but rigidly connected to the cross-head. The lower end of the spindle d would be provided with a grooved pulley i, from which a drivingcord j extends overtwo loose grooved pulleys Zc, side by side upon a spindle Z in the upper end of the frame T, and thence down around the pulley X, suitably grooved for that purpose. )Vithn the slots g at one end are -gravitati-ng dogs m, which permit the passage under them of the rollers f at the end IOO IlO

of the stroke of the vibrating frame T and j guide them up into the upper part of the slots to lift the cutter-head into cutting contact with the staves on the return-stroke of the vibrating frame, as will be readily understood.

Again, instead -of punching the hoops to form the retaining-points d, the devices shown in Figs. 32, 33, and 34 might be employed for forming staples and driving said staples across the hoops into the staves to secure the hoops to the staves. In said figures n is a vertical guide-socket, into which the wire 0 for forming thev staples is fed and contains a shearing and bending plunger p,

acting in connection with an anvil-block q,

contained in a lateral guide -housing r, forming part of or attached to the guide n. Between the two parts of the bending-plun ger is a driving-plunger S, connected by a pivoted bell-crank 15" to the anvil q in such manner that as soon as the wire has been sheared and bent to form the staples the drivingplunger in commencing its descent to drive the staple draws the anvil q back out of the way. Thereupon the staple is driven across the hoop into the stave and through the same, if desired, and may have its lower ends clinched by anvil-blocks w in the former D. in the wire 0 may be employed-such as the rollers x gjm-held in engagement with the wire by spring-tension and operated only upon the upstroke of the plunger p, through the medium of the arm gravitating dog l, carrying a small dog 2, engaging with a ratchet 3 upon the'feed-Wheel 00',- or again, instead of the retaining-points d, or the staples for uniting the hoops to the staves, ordinary tacks or nails might beused, as shown in Figs. 35, 3G, and 37. In this latter case the hoops would simply have small holes punched through them by the punching mechanism and the nails would be fed by a vibrating trough 4 into a guide-socket 5, containing pivoted expansible jaws 6, between which a reciprocating plunger 7 would play to drive the fed-in nails through the holes in the hoops into the staves, as will be' readily understood.

The plunger for the staples and nail mechanism would be actuated from the shafts E by the means described for thc clinching and clamping plungers. It will also be understood that it is not at all necessary that my improved method of making barrels should be carried out in a machine in which the entire operation of feeding in the staves, bending and joint-in g them, forming the hoops from continuous pieces of hoop-iron, and looping, connecting, and punching the same and attaching them to the staves is automatically performed in one connected machine, for many of the various novel and useful subcombinations of elements may be independently employed in machines of different construction and arrangement. For instance, the devices for attaching the hoops to the staves may be used independently of the cutting devices for jointing the staves, as where the latter are jointed before being' fed into the machine, while both these sets of devices may be used without the de` Vices for cutting the hoops from continuous pieces of metal and bending, looping, connecting, and punching the same, as where previously-formed hoops are fed into the machine by hand or otherwise. Again, while I have shown and described the barrel-former as of a peculiar bilge shape in order to give such shape to the barrel, I do not wish to be understood as limiting myself to any particular shape of the former, for it may be changed without departing from my invention, and under some circumstances might even be a simple table or anvil-blockl to support the staves as they are passed beneath the devices for attaching the hoops to them, and where the traveling cutter is employed to joint the staves as they are passed over the former, if the latter is fiat or has a straight longitudinal Any suitable devices for feeding surface, the mechanism for raising and lowering the cutter to follow the line of a bllgeshaped former would of course be dispensedwith. Again, while I have shown a series of take-up rollers or wheels B engaging the two middle hoops of the series between the cutting devices and the former to make the path of travel of said middle hoops from the cutting devices to the former longer than that of the outside hoops, for the purpose of giving greater length to said middle hoops to accommodate the bilge of the barrel, this result may be accomplished in a variety of ways, either with or Without the use of special devices for that purpose; also, the punching devices, which are needed in heavy work, may, if desired, be dispensed with where the work is light and-very thin hoop-i ron is used, in which event the devices for attaching the loops to the staves on the former can themselves be made to d0 the punching.

Having thus fully described my invention, I claiml. In the art of barrel-making, the method of forming a barrel-blank, consisting in feeding the staves and strips of hoop metal over a former and jointing the staves and attaching the hoops to th'em as they are fed over said former, substantially as described.

2. In the art of barrel-making, the hereindescribed method of forming a barrel-blank, consisting in feeding the staves and strips of hoop metal over a former and attaching the hoops to the stavesby forcing' portions of the hoop metal into the staves as they are passed over said former, substantially as set forth.

3. In the art of barrel-making, the hereindescribed method of attaching the hoops to the staves, consisting in passing the staves and hoops beneath clinching-plungers and forcing points of the hoop metal into the staves and clinching them therein, substantially as set forth.

4. In the art of barrel-making, the hereindescribed method of forming an open-ended barrel, consisting in feeding the staves and strips of hoop metal over a former and attaching the hoops to the staves as they are passed over said form er to form a flexible barrel-blank, and then bending said blank into barrel shape and securing its opposite ends together, substantially as set forth.

5. In the art of barrel-making, the method of forming an. open-ended barrel, consisting in feeding the staves and hoops over a former and jointing the staves and attaching the hoops to them as they are passed over said former to make a flexible barrel-blank, and then bending said blank into barrel shape and securing its opposite ends together, substantially as described.

6. In the art of barrel-making, the method of forming an open-ended barrel, consisting in attaching the hoops to the staves by forcing portions of the hoop metal into the staves to form a flexible barrel-blank, and then bend- IIO ing said blank into barrel shape and securing its opposite ends together, substantially as described.

7. The herein-described method of building a barrel, consisting in attaching strips of hoop metal to a series of staves to form a exible barrel-blank, securing to said blank suitable supports for the barrel-heads, bending said blank into barrel shape and securing its opposite ends together, and then inserting and securing the heads, substantially as set forth.

S. The herein-described method of building a barrel, consisting in feeding the staves and strips of hoop metal over a former and jointing the staves and attaching the hoops to them as they are passed over said former to form a ilexible barrel-blank, securing to said blank suitable supports for the barrel heads, bending said blank into barrel-shape and securing its opposite ends together, and then inserting and securing the heads, substantially as set forth.

9. The herein-described method of building` a barrel, consisting in attaching strips of hoop metal to a series of staves by forcing points of the hoop metal into the stares and clinching them therein to form a flexible barrellblank, securing to said blank suitable supports for the barrel-heads, bending said blank into barrel shape around a suitable former and securing its opposite ends together, and

then inserting and fastening the heads, substantially as set forth.

10. In the art of barrel-making, the herein form to the shape thereof, jointing the staves and attaching the hoops to them as they are passed over said former, and then bending into barrel shape the blank thus formed and securing its opposite ends together, substantially as set forth.

ll. The herein-described method of forming av barrel-blank in a barrel-making machine, consisting in cutting the hoops of proper length from continuous pieces of hoop metal carried on reels -or other supports and fed into the machine, looseljyT reconnecting the adjacent cut ends of the hoops of each series, feeding the cut hoops and the staves over a former and attaching the hoops to the staves as they are passed over said former, and dis-V connecting the hoops of each blank from those of its immediately-succeeding blank as it is delivered from the machine, substantially as set forth.

HENRY J. GILBERT. Witnesses:A

BENTON HANCHETT, EZRA RUST.

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