US511567A - Machine for working sheet metal - Google Patents
Machine for working sheet metal Download PDFInfo
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- US511567A US511567A US511567DA US511567A US 511567 A US511567 A US 511567A US 511567D A US511567D A US 511567DA US 511567 A US511567 A US 511567A
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- vessel
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- 239000002184 metal Substances 0.000 title description 18
- 230000000875 corresponding Effects 0.000 description 6
- 238000010276 construction Methods 0.000 description 4
- 241001214714 Niea Species 0.000 description 2
- 229940035295 Ting Drugs 0.000 description 2
- 240000006802 Vicia sativa Species 0.000 description 2
- 239000011324 bead Substances 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 230000001276 controlling effect Effects 0.000 description 2
- 230000001419 dependent Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 239000000834 fixative Substances 0.000 description 2
- 210000001699 lower leg Anatomy 0.000 description 2
- 235000013533 rum Nutrition 0.000 description 2
- 238000004826 seaming Methods 0.000 description 2
- 230000013707 sensory perception of sound Effects 0.000 description 2
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D51/00—Making hollow objects
- B21D51/16—Making hollow objects characterised by the use of the objects
- B21D51/26—Making hollow objects characterised by the use of the objects cans or tins; Closing same in a permanent manner
- B21D51/2676—Cans or tins having longitudinal or helical seams
Definitions
- Patented DedVZG, 1893 Patented DedVZG, 1893.
- FRANCIS A WALSH, OF MILWAUKEE, WVISOONSIN.
- My invention has for itsprincipal object to provide a simple, durable machine for heading filled vessels of various sizes in such .a manner as to receive slip-covers, but, owing to certain structural details, this machine may be utilized for other work in the art of working sheet-metal Without departure from said invention, the latter consisting in certain peculiarities of construction and combination of parts to be hereinafter described with reference to the accompanying drawings and subsequently claimed.
- Figure 1 represents an elevation of a machine constructed according to my invention,certain of the parts being illustrated in section; Fig. 2,3. detail plan viewof a portion of the machine; Fig. 3,a horizontal section taken on line 3-3 of Fig. 1; Fig. 4 a detail elevation partly in section illustrating a mechanism for imparting a rotary and vertically reciprocative motion to a vessel-support embodied in said machine; Fig. 5, a horizontal section taken on line 5-5 of the succeeding figure; Fig. 6, a vertical transverse section taken on line 6-6 of the preceding figure; Figs. 7 and 8 detail horizontal sections illustrating a clutch-mechanism that constitutes part of the aforesaid machine, the latter view being taken on line 8% of Fig. 6; Fig. 9 an inverted plan view of a roller-carrying device that is shown in Fig. 1 as detachably connected to a driving spindle, and Fig.
- FIG. 10 a similar view of a detachably connected housing and guide.
- FIGs. 11 and 12 are diagrams representing an operation of my machine organized to head sheet-metal vessels.
- A represents a base
- B a standard on the same.
- the upper end of the standard is shown as' provided with a flange O and bracket D, other brackets E, F,being extendedfrom said standard at a certain distance from its lower end, as best illustrated in Fig. 1.
- a yoke G Supported on the upper end of the standard is a yoke G provided with bearings b for a shaft H, that carries a loose pulley I and a tight pulley J for a driving belt.
- the shaft H also carries a fly-wheel K,pulley L and gear-wheel M, the latter being in mesh with a similar wheel N fast on a spindle O that has its bearing in a sleeve P that forms part of the bracket D, above described.
- a housing Q is shown as bolted to a flange c at the lower end of the sleeve P and this housing is recessed to engage a collar d on the spindle O as shown in Fig. 1.
- rollers S While I have shown a series of rollers S, one may be foundsufficient in practice for certain Work, but if several be positioned at regular intervals apart the strain will be equally divided and better results obtained in connection with operations performed on sheet-metal of heavy grades.
- the housing Q is provided at intervals with lugs h for engagement with bayonet slots 1' in a guide T, it being intended that the machine shall be accompanied by a series of'such guides'having openings of diameters corresponding to vessels of different sizes.
- the spindle O is provided with alongitudinal bore and thus constitutes a guide fora rod U having an enlarged and screw-threaded lower end i forengagement with a tapped opening in the center of a plate V, as shown in Fig.1.
- the upper end of the rod U is connected, by a link j, with a lever-arm W fast on a stem arranged to turn in bearings m on the yoke" G, and said lever-arm is normally supported by the spring 1) shown in Figs. 1 and 2.
- the bracket E is provided with a guide (1 for a spindle A that is splined in a sleeve B the latter being free to turn in a bearing r that forms part of the bracket F specified in the foregoing.
- Loose on the sleeve B below the bearing 1' is a worm-wheel 0 having a series of notches s radiating from its central opening, and a collar D fast on the lowerend of said sleeve serves as a support forsaid worm-wheel.
- the sleeve B and collar D are recessed to receive a pivotal right angle dog E, the horizontal arm of this dog being opposed by a spring t fast in the recessed portion of said collar, as best illustrated in Fig. 8, and, as also best shown in the same figure, one member F of a pair of jointed levers is provided with a hook end u normally opposed to said horizontal arm of the dog on that side farthestfrom said spring.
- a spiral spring G connects the levers F F on that side of their pivot nearest the collar D andthe contraction of this spring serves to brin'gsaid levers in opposition to the horizontalarm of the dog E above described.
- a wedge-lug v on a handlever H Interposed between the outer ends of the jointed levers is a wedge-lug v on a handlever H that is fulcrumed to the base of thefnlachine, and by actuating this lever, in the proper direction, said levers are spread apart to overcome the spring G and at the same time come out of the path of the dog E, jthereby permitting the sprin g .t to act and partially rotate said dog.
- This partial rotation of the dog brings the semi-circular portion to thereof far enough out of the corresponding recess or seat in the sleeve B to engage with one of the radial notches s in the fworm-wheel C, as best illustrated in Fig.
- this worm-wheel is clutched with said sleeve to impart rotary motion to the latter and spindle A splined therein, said worm-wheel being driven by a worm I on a shaft J that has its hearings to on the base of the machine and is connected by a belt K and pulleys L L with the shaft H above described.
- the spindle A is preferably rum in adirection reverse to the head R and thus any tendency of the supporting chuck R to rotate is overcome.
- Bolted or otherwise rigidly secured to the bearing 0" is a horizontal plate N preferably recessed to fit a flangeg on the spindle-sleeve B, and this plate is provided with a vertically disposed cam O of suitable contour, in the path of an anti-friction roller P, or other projection, depending from aflanged disk Q that is fast to the spindle A, above described.
- the cam Oand the relative projeotion on the disk Q the spindle A is caused to rise and fall at each revolution thereof, and in case it is desirable to multiplythis reciprocation of said spindle, two or more suitable devices may be arranged on said disk to travel on said cam.
- two or more suitable devices may be arranged on said disk to travel on said cam.
- the disk Q as provided with bearings for an additional anti-friction roller that is placed in position when the spindle A is to reciprocate twice, while making one revolution.
- the flange of the disk Q is provided with a lateral cam projection corresponding to each of the cam opposing devices carried by said disk and, as the latter is robell-crank to tilt on its pivot.
- the tilt of the bell-crank actuates the rod Yand lever-arms W, X, against the power of the springp and thus the rod U, linked to the former lever arm, is forced down in its guide to cause the plate V to eject the completed work from the guide '1 that is supported in the hanger Q above described.
- an anti-friction roller 1) on that arm of the bell-crank Z that is opposed to the lateral cam projection z onthe flange of the disk Q above described.
- the spindle A has its upper end reduced to form a stud for loose engagement with the hub of a supporting chuck R, and said spindle is screw-threaded adjacent to the stud to engage 'a correspondingly threaded sleeve 5' that impinges against said chuck-hub.
- the sleeve S is provided with a handwheel T and by adjusting said sleeve on the adjacent spindle the chuck Rinay be raised or lowered to compensate for wear, or variations in the length of vessels worked upon by the machine.
- a setscrew is employed to hold the sleeve S' in the position to which it may be adjusted.
- Avessel to be worked upon by the machine is placed on the supporting chuck R and the lever H actuated to permit the clutch-dog E to engage with the continuously traveling worm-wheel C, as above described, whereby rotary motion is imparted to the spindle A, the latter being moved upward during a portion of its revolution, by the cam-mechanism hereinbefore set forth, to bring the upper portion of saidvessel within the guide '1 that is detachably connected to the stationary hanger Q depending from the bracket D of the machine-standard, while at thesame time the aforesaid vessel is engaged withthe working device or devices S carried by the head R that is connected to the spindle 0, ingear with the main shaft H of said machine.
- the cam-mechanism is so timed that on the completion ofthe work on the vessel, the spindle A is permitted to automatically descend while in rotation, and at the same time the bell-crank Z is tilted on its pivot to actuate the mechanism controlling the plate V whereby the latter is moved down against the vessel to force the latter out of the guide '1 and free of the machine, although for some work it may be found more desirable to "do away with the ejector-plate and make said guide in parting sections for the purpose of releasing the completed work at a predetermined time.
- levers F F the continuous or intermittent rotation of said spindle being a matter of choice dependent on the character of the vessels or other sheet-metal devices to be worked upon by the machine.
- Figs. 11 and 12,1 show the operation of my machine, as organized to head vessels designed to receive slip-covers, the walls of such vessels being primarily provided with an inwardly extended head or seat that serves as a support for the head, the walls of said vessels being generally straight and extended a certain distance above the flangeon the headblank.
- the opening in the guide T being of the same diameter asthe vessel, that portion of the latter within said guide is supported during the operation of the tool, or tools S,
- I claim-- 1 The combination of a vessel-support, a vessel-guide in opposition thereto, suitable means for reducing the normal distance betweenv said parts to bring about an engagement of a supported vessel with the guide, and a tool independent of the guide but arranged to operate longitudinally of the vessel against that edge of the same adjacent to said guide, substantially as set forth.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Description
.. t e 8 h S 8 b e e h s H S L A A F M. e d 0 M 0 w MAGHINE FOR. WORKING SHEET-METAL. No. 511,567.
Patented DedVZG, 1893.
(No Model.) 3 Sheets-Sheet 2.
F. A. WALSH. MAGHINBFOR WORKING SHEET METAL- NO. 511,567.
Pat ented Dec. 26, 1893.
(No Model.) 3 Sheets-Sheet 3..
F. A. WALSH. MACHINE FOR WORKING SHEET METAL.
No. 511,567; Patented Dec. 26,1893.
NITED STATES PATENT FFIcE.
FRANCIS A. WALSH, OF MILWAUKEE, WVISOONSIN.
MACHINE FOR WORKING SHEET METAL.
SPECIFICATION forming part of Letters Patent No. 511,567, dated December 26, 1893.
Application filed April 2'7, 1892- Serial 110,430,892. (No model.)
T0 on whom it may concern.-
Be it known that I, FRANCIS A. WALSH, a citizen of the United States, and a resident of Milwaukee, in the county of Milwaukee, and in the State of Wisconsin, have invented certain new and useful Improvements in Machines for Working Sheet Metal; and I do hereby declare that the following is a full, clear, and exact description thereof.
My invention has for itsprincipal object to provide a simple, durable machine for heading filled vessels of various sizes in such .a manner as to receive slip-covers, but, owing to certain structural details, this machine may be utilized for other work in the art of working sheet-metal Without departure from said invention, the latter consisting in certain peculiarities of construction and combination of parts to be hereinafter described with reference to the accompanying drawings and subsequently claimed. I v
In the drawings: Figure 1 represents an elevation of a machine constructed according to my invention,certain of the parts being illustrated in section; Fig. 2,3. detail plan viewof a portion of the machine; Fig. 3,a horizontal section taken on line 3-3 of Fig. 1; Fig. 4 a detail elevation partly in section illustrating a mechanism for imparting a rotary and vertically reciprocative motion to a vessel-support embodied in said machine; Fig. 5, a horizontal section taken on line 5-5 of the succeeding figure; Fig. 6, a vertical transverse section taken on line 6-6 of the preceding figure; Figs. 7 and 8 detail horizontal sections illustrating a clutch-mechanism that constitutes part of the aforesaid machine, the latter view being taken on line 8% of Fig. 6; Fig. 9 an inverted plan view of a roller-carrying device that is shown in Fig. 1 as detachably connected to a driving spindle, and Fig.
10, a similar view of a detachably connected housing and guide. Figs. 11 and 12 are diagrams representing an operation of my machine organized to head sheet-metal vessels.
Referring by letter to the drawings, A represents a base, and B a standard on the same.
The upper end of the standard is shown as' provided with a flange O and bracket D, other brackets E, F,being extendedfrom said standard at a certain distance from its lower end, as best illustrated in Fig. 1. Supported on the upper end of the standard is a yoke G provided with bearings b for a shaft H, that carries a loose pulley I and a tight pulley J for a driving belt. The shaft H also carries a fly-wheel K,pulley L and gear-wheel M, the latter being in mesh with a similar wheel N fast on a spindle O that has its bearing in a sleeve P that forms part of the bracket D, above described. A housing Q is shown as bolted to a flange c at the lower end of the sleeve P and this housing is recessed to engage a collar d on the spindle O as shown in Fig. 1. Screw-threaded or otherwise suitably connected to the lower end of the spindle 0, within the hanger Q, is a head It provided at certain intervals with depending lugs e each .of which has a tapped opening for engagement with the screw-threaded shank of a stud f on which a grooved roller S is arranged to have a free rotation, a set-screw g being employed to hold the stud in place, and it is obvious that any suitable formers may be substituted for the rollers.
While I have shown a series of rollers S, one may be foundsufficient in practice for certain Work, but if several be positioned at regular intervals apart the strain will be equally divided and better results obtained in connection with operations performed on sheet-metal of heavy grades. The housing Q is provided at intervals with lugs h for engagement with bayonet slots 1' in a guide T, it being intended that the machine shall be accompanied by a series of'such guides'having openings of diameters corresponding to vessels of different sizes.
The spindle O is provided with alongitudinal bore and thus constitutes a guide fora rod U having an enlarged and screw-threaded lower end i forengagement with a tapped opening in the center of a plate V, as shown in Fig.1. The upper end of the rod U is connected, by a link j, with a lever-arm W fast on a stem arranged to turn in bearings m on the yoke" G, and said lever-arm is normally supported by the spring 1) shown in Figs. 1 and 2.
Fast on the stem is is another lever-arm X, and a rod Y connects this lever-arm with a bell-crank Z pivotally connected to the bracket E above described. The bracket E is provided with a guide (1 for a spindle A that is splined in a sleeve B the latter being free to turn in a bearing r that forms part of the bracket F specified in the foregoing. Loose on the sleeve B below the bearing 1' is a worm-wheel 0 having a series of notches s radiating from its central opening, and a collar D fast on the lowerend of said sleeve serves as a support forsaid worm-wheel. The sleeve B and collar D are recessed to receive a pivotal right angle dog E, the horizontal arm of this dog being opposed by a spring t fast in the recessed portion of said collar, as best illustrated in Fig. 8, and, as also best shown in the same figure, one member F of a pair of jointed levers is provided with a hook end u normally opposed to said horizontal arm of the dog on that side farthestfrom said spring. A spiral spring G connects the levers F F on that side of their pivot nearest the collar D andthe contraction of this spring serves to brin'gsaid levers in opposition to the horizontalarm of the dog E above described. Interposed between the outer ends of the jointed levers is a wedge-lug v on a handlever H that is fulcrumed to the base of thefnlachine, and by actuating this lever, in the proper direction, said levers are spread apart to overcome the spring G and at the same time come out of the path of the dog E, jthereby permitting the sprin g .t to act and partially rotate said dog. This partial rotation of the dog brings the semi-circular portion to thereof far enough out of the corresponding recess or seat in the sleeve B to engage with one of the radial notches s in the fworm-wheel C, as best illustrated in Fig. 7, whereby this worm-wheel is clutched with said sleeve to impart rotary motion to the latter and spindle A splined therein, said worm-wheel being driven by a worm I on a shaft J that has its hearings to on the base of the machine and is connected by a belt K and pulleys L L with the shaft H above described. The spindle A is preferably rum in adirection reverse to the head R and thus any tendency of the supporting chuck R to rotate is overcome.
Bolted or otherwise rigidly secured to the bearing 0" is a horizontal plate N preferably recessed to fit a flangeg on the spindle-sleeve B, and this plate is provided with a vertically disposed cam O of suitable contour, in the path of an anti-friction roller P, or other projection, depending from aflanged disk Q that is fast to the spindle A, above described. By means of the cam Oand the relative projeotion on the disk Q, the spindle A is caused to rise and fall at each revolution thereof, and in case it is desirable to multiplythis reciprocation of said spindle, two or more suitable devices may be arranged on said disk to travel on said cam. In Fig. l, I have shown the disk Q as provided with bearings for an additional anti-friction roller that is placed in position when the spindle A is to reciprocate twice, while making one revolution. The flange of the disk Q is provided with a lateral cam projection corresponding to each of the cam opposing devices carried by said disk and, as the latter is robell-crank to tilt on its pivot. The tilt of the bell-crank actuates the rod Yand lever-arms W, X, against the power of the springp and thus the rod U, linked to the former lever arm, is forced down in its guide to cause the plate V to eject the completed work from the guide '1 that is supported in the hanger Q above described. As shown in Fig. 1, I prefer to arrange an anti-friction roller 1) on that arm of the bell-crank Z that is opposed to the lateral cam projection z onthe flange of the disk Q above described. The spindle A has its upper end reduced to form a stud for loose engagement with the hub of a supporting chuck R, and said spindle is screw-threaded adjacent to the stud to engage 'a correspondingly threaded sleeve 5' that impinges against said chuck-hub. As shown the sleeve S is provided with a handwheel T and by adjusting said sleeve on the adjacent spindle the chuck Rinay be raised or lowered to compensate for wear, or variations in the length of vessels worked upon by the machine. As shown in Fig.1 a setscrew is employed to hold the sleeve S' in the position to which it may be adjusted. Avessel to be worked upon by the machine is placed on the supporting chuck R and the lever H actuated to permit the clutch-dog E to engage with the continuously traveling worm-wheel C, as above described, whereby rotary motion is imparted to the spindle A, the latter being moved upward during a portion of its revolution, by the cam-mechanism hereinbefore set forth, to bring the upper portion of saidvessel within the guide '1 that is detachably connected to the stationary hanger Q depending from the bracket D of the machine-standard, while at thesame time the aforesaid vessel is engaged withthe working device or devices S carried by the head R that is connected to the spindle 0, ingear with the main shaft H of said machine.
The cam-mechanism is so timed that on the completion ofthe work on the vessel, the spindle A is permitted to automatically descend while in rotation, and at the same time the bell-crank Z is tilted on its pivot to actuate the mechanism controlling the plate V whereby the latter is moved down against the vessel to force the latter out of the guide '1 and free of the machine, although for some work it may be found more desirable to "do away with the ejector-plate and make said guide in parting sections for the purpose of releasing the completed work at a predetermined time. If the lever H be set in such position as to have the wedge-lug v thereon hold the jointed levers F F" apart, the rotation of the spindle A will be continued indefinitely andthe reciprocation of said spindle will depend upon the construction of the cam-mechanism. That is to say, if there be two or more projections or rollers P depending from the disk Q and a single cam O in their path, there will be a reciprocation of the spindle each time one of said projections travels on.
levers F F the continuous or intermittent rotation of said spindle being a matter of choice dependent on the character of the vessels or other sheet-metal devices to be worked upon by the machine.
In Figs. 11 and 12,1 show the operation of my machine, as organized to head vessels designed to receive slip-covers, the walls of such vessels being primarily provided with an inwardly extended head or seat that serves as a support for the head, the walls of said vessels being generally straight and extended a certain distance above the flangeon the headblank. The opening in the guide T being of the same diameter asthe vessel, that portion of the latter within said guide is supported during the operation of the tool, or tools S,
and the tendency of the bead or seat,for the head of said vessel, is to extend inward, as shown in Fig. 12, to thereby form a greater bearing surface for said head. The pressure of the grooved roller or rollers S turns the upper edge of the vessel over as shown in Fig. 11, and continued pressure causes the upper portion of the vessel wall and head flange to be rolled together in the form of an inturned seam, simultaneous with a com pression of the head-seat, as shown in Fig. 12, at which time the work is completed and said vessel discharged from the guide.
'VVhile I have shown the spindle A as being capable of rotation, it is obvious that the cam plate N may be the rotary part in order that a reciprocation may be imparted to said spindle, or the supporting chuck B may be reciprocated independent of the spindle, this being a matter of mechanical expediency that in no way involves a departure from the spirit of my invention, in its broadest sense.
I claim-- 1. The combination of a vessel-support, a vessel-guide in opposition thereto, suitable means for reducing the normal distance betweenv said parts to bring about an engagement of a supported vessel with the guide, and a tool independent of the guide but arranged to operate longitudinally of the vessel against that edge of the same adjacent to said guide, substantially as set forth.
2. The combination of a vessel-support, a vessel-guide in opposition thereto, suitable means for reducing the normal distance between said parts to bring about an engage- .ment of a supported vessel with the guide, a
tool independent of the guide but arranged to operate longitudinally of the vessel against that edge of the same adjacent to said guide, and other suitable means for ejecting said vessel from the aforesaid guide subsequent to the operation of the tool, substantially as set forth.
3. The combination of a vessel-support, a housing in opposition to the same, a vessel engaging guide detachably arranged within the housing, suitable means for reducing the normal distance between the support and housing to bring about an engagement of a supported Vessel with the guide, and a tool arranged within said housing to operate upon that edge of the vessel brought within the same, substantially as set forth.
4. The combination of a vessel-support, a housing in opposition thereto, a guide in the housing, suitable means for reducing the normal distance between the support and housing to bring about an engagement of a supported vessel with the guide, a head having a rotation within the housing, and a tool carried by the head in opposition to the guideengaged vessel, substantially as set forth.
5. The combination of a vessel-support, a
vessel-guide in opposition tothe support,suitable means for reducing the'normal distance, between said parts to bring about an engagement of a supported vessel with'the guide, a
tool arranged to perform an operation longitudinally of the vessel on that edge of the same adjacent to the guide, and an ejector for the completed workgsubstantially as set forth.
6. The combination of a reciprocative vessel-support, a stationary vessel-guide in opposition to the support, and a tool arranged to exert pressure'longitudinally against that edge of the vessel adjacent to the guide while the two latter are in engagement incidental to a movement of said support, substantially sition to the support, a tool arranged to exert pressure against that edge of the vessel adjacent to the guide while the two latter'are in engagement incidental to a movement of said support, and suitable means for releasing said vessel from the guide, substantially asset forth.
8. The combination of a reciprocative chuck, a guide in line with the chuck and correspondent to a sheet-metal vessel supported on said chuck, a suitable tool for exert-ing pressure against that edge of the vessel adjacent to the guide an ejector adjacent to the tool, a lever-mechanism connected to the ejector, and suitable means for actuating the lever-mechanism at a predetermined time, substantially as set forth.
9. The combination of a chuck-carrying spindle, suitable means for rotating the same, and other suitable means for reciprocating said spindle during its rotation, a guide in line with the chuck and correspondent to a cohneetion between the sleeve and drivi ngondi'e, said methotlfbons'istihgin suppd'rtin sleeve and provided at intervalswith notches 'b le sleeve having a spline-'conneetion with s mj aie,fistname;we tern-"lana irigrnessme,a l
and the: f'suitahle nieahs tot i'eipi'oeating said spindle dli-I'in'gjits fotationya guide in line with the ehnk; and eem-esponjaiit to a "ei se 'f .t a l2. 'Ih'ednilj ih'ationof otativ'espindle, siiitiible means for i'eciprooati ngthe spindle an; n 'its rotation'aha a vesse supporting clinkflodse 6n saidjspindle biiti'efcifi toeatiiw'e thi'ewith,*shbstahtially as set forth.
13, The combination of a rotative spindle, suitable means for i'eeipi'ob atin gthe spindle an ting ifsiotation, a ve sel fs'upborting liiik loo'seon the spindleifaindasleeve screw-threaded to said spindle in opposition fothe tihek, Whe'i'eliy the latter maybe positively adjusted,'fsnb'stantially as set forth.
14. The bomhination of aspindlmf a 'disk fast on thespindle and having one sidethereof p'roiiide'd with a'proj'eetion, a stationaiyfcam inthepath of the 'pi'ojeetionon the disk, a retiolnhle sleeve having a'spline-eonnjection With' said spindle, adi'ivinggeai', and a clutchgeaiysuhstantially assetfoith.
1'5. Theeolnbiriationof 'spindle a disk fast on the same and havingone side p'rovided with a projection, a stationary cam in the path of the disk-projection, a revolnblje sleeve having aspline-connection with said spindle, a eluteh-dog .pivotallybonnected to the sleeve, agear-"wheel noi'mally loose on said fer enga ement with madman-do Suitable means for aetnating this clutch dog, and a d't'iving-p'inion in mesh with the gear-wheel, stilistantially as set forth. V V
16. The combination of a spindle, a disk fast on the same and having one side thereof pi'tiiiided with a plojectioma stationary cam in the path of the dis'krprojeetion, a revolusaid. spindle, a spring-controlled clutch-dog wheel notched at p'wo an contested "to 17. The edrnbinationfdfa tessel sup'pqfl, a vessel-"guide in opposition to the'sainefshitable mean for team ng the omer-distance between said 'patts'tobiing abdiita'n" n'gage- 1 of a su 'pdi-rea t ssljana steamingteotatrangea toopetaterengiffidifianybfthe vessem gainst that e agetf tli'e latteiyadjacent a) the guide, Whei'eiiy thisen'd "6E 551a fvess'el and a "cover arranged ,With ielati'on he e tare i idl t to sa engagelnentof' e ufeli t Stipfiditdf'sfilffl jsfilhili arranged toppei-tite-lohgitudihany selagainst that edge of the Iatte'ra'dj lto the guide, whefliy aiiefnianeflt iiii established between this end "(fixative e1 to 'wh ens'aiaengagementtakesplaee;sentinel- "suitable means fer releasing the afdr'esaid vessel on the tem tation offthesearninigoperfation,'siib'stantiallyas s'etfbrth.
19, The bonibinatioh ofa i'e'cip'io'oative Vessel suppoitja stationai-y 'v tel-guide inopposition to the a iotar 'aexde'e eeri ying aseam'ingtool and arl anged beyohdthe guide in longitudinal opposition to the'ifessel, whereby a pei maneiit amount *saia 'ifs- :sel andaeover ar'ifangdwithi elatioh the'fe; to takes place ineid'ent'al to engagement this Vessel with saidfg'hi de, jdthe i' suitable niea'n'sfoiii'elieasihg the afoiesaidvessel fi-omthj'e gnideonthe completion of: theseamingopeiation, substantially *asfsetfoifth. 20. Thehei ein desc'rib'ed "niethodof 'li'eading sheet-Inetal vessels bya single operacidn without the employment er an innermanafil a head for e'aeh vesse on a prvionslyforined interior bead-like seat consti uting paper the essel wall a certain distance loiiitlidinallyfro'm the edge of thesanie,shfi oiindihg thispofi-tion of the vessel with a "resis'ttinc'e to outward expansion extendedb'l'otv said 'sat and then rigidly iiniting the Vessel headand jwall a seaming operation sininltaneohs with a"co1np'1'ess1on of said seat, substantially,
asset forth.
In testimonythat I claim the foregoin *1 have hereunto set inyhand, at Milwaukee, in the county of Milwaukee "and State of Wiscousin, in the preseneeof two Witnesses,
FRANCIS A. WALSH.
Witnesses: r
N. E. OLIPHANT, JOHN E. WILES.
the giee e a gear-
Publications (1)
Publication Number | Publication Date |
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US511567A true US511567A (en) | 1893-12-26 |
Family
ID=2580390
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US511567D Expired - Lifetime US511567A (en) | Machine for working sheet metal |
Country Status (1)
Country | Link |
---|---|
US (1) | US511567A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2811192A (en) * | 1954-10-18 | 1957-10-29 | Edward C Kradoska | Bead forming and re-rolling machine |
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0
- US US511567D patent/US511567A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2811192A (en) * | 1954-10-18 | 1957-10-29 | Edward C Kradoska | Bead forming and re-rolling machine |
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