US522270A - Can-heading machine - Google Patents
Can-heading machine Download PDFInfo
- Publication number
- US522270A US522270A US522270DA US522270A US 522270 A US522270 A US 522270A US 522270D A US522270D A US 522270DA US 522270 A US522270 A US 522270A
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- Prior art keywords
- head
- feed
- reciprocating
- slide
- heads
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- Expired - Lifetime
Links
- 238000004826 seaming Methods 0.000 description 13
- 230000004907 flux Effects 0.000 description 12
- 238000002788 crimping Methods 0.000 description 11
- 230000033001 locomotion Effects 0.000 description 8
- 239000002253 acid Substances 0.000 description 3
- 101150091111 ACAN gene Proteins 0.000 description 2
- 238000004513 sizing Methods 0.000 description 2
- 150000001768 cations Chemical class 0.000 description 1
- 229940000425 combination drug Drugs 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
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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
- B21D51/30—Folding the circumferential seam
- B21D51/32—Folding the circumferential seam by rolling
Definitions
- Our invention relates to machines forautomatically applying the heads or ends to the bodies of sheet metal cans.
- the object of our present invention is to provide means for automatically applying acid or other flux to the ends of the can body prior to the application of the seaming of the heads thereto; and also to improve and further perfect the mechanism for automatically feeding the heads into position for.applica-' furnished with a pad on its inner face in connection with a trough or vessel for holding the acid or flux, and in which the rim of the disk revolves.
- the aciding or fluxing device is preferably mounted upon the same reciprocating slide or cross head which carries the head applying piston and the seaming devices, so that one movement of this cross head may serve to apply the flux to the end of one can body and to apply the head to the next succeeding can body.
- the means or mechanism employed for holding and truing up the can body while the heads are applied thereto consists, preferably, of two opening and closing half-molds or pockets which surround the can body and true it up into shape to receive the heads by exerting external pressure upon its periphery.
- One of these part molds is preferably mounted upon a reciprocating slide or cross head and the other upon an intermittently revolving wheel-
- This intermittently revolving wheel is provided with a series of part molds upon its periphery, each of which coacts in turn with the reciprocating part mold, and this wheel thus serves as the device for feeding or con veying the can bodies first into position for the application of the flux thereto and then into position for theapplication of the heads thereto.
- the means or device for applying and forcing the heads upon the can bodies consists of reciprocating pistons or plungers which are preferably mounted upon the same slides that carry the seaming devices or jaws.
- the seaming devices especially where the cans to be operated upon are rectangular, preferably consist of reciprocating jaws or dies.
- Figure 1 is a plan view of a machine embodying our invention.
- Fig. 2 is aside elevation.
- Fig. 3 is a detail elevation showing the can head feed chute and the can head feed device operating in conjunction therewith.
- Fig. 4 is a section on line 4-4. of Fig. 3.
- Fig. 5 is a section on line 5-5 of Fig. 3.
- Fig. 6 is asection on line 66 of Fig. 3.
- Fig. 7 is an enlarged detail section taken on line 77 of Fig. l and showing an elevation of the fluxing device.
- Fig. 8 is a section on line 8-8 of Fig. 7.
- Fig. 9 is a detail view of the can head chute.
- Fig. 10 is a section on line 10 10 of Fig. 1.
- Fig. 1 and Fig. 12 is an elevation of the mechanism for operating the crimpingorsqueezing aws.
- A represents the frame of the machine.
- B are the half-molds or pockets for holding and sizing the can body, which are mounted upon the intermittently revolving wheel B.
- Fig. 11 is a section online 11 11 of the slide or cross head O which coacts with IOC ing the can heads upon the can bodies, the same being mounted upon the slides or cross heads D.
- F F are the clamping or seaming devices, the same consisting preferably of reciprocating slides mounted in suitable guides F on the cross head D.
- E is the aeiding or fluxing device consisting, preferably, of a pad or cushion carried by the revolving disk E, the rim of which revolves in a trough or vessel E for containing the flux.
- the can head feed chute G is the can head feed chute or passage along which the can heads are fed into position for application to the body of the can.
- the can head feed chutes G are mounted upon the same reciprocating cross head D which carries the pistons D, the fluxing device E and the seaming or crimping jaws F.
- the can head feed chute G is furnished with a reciprocating feed slide g mounted in suitable guides g, the same being furnished with pawls or feed fingers g which are held in place by springs 9
- Corresponding spring pawls g are afiixed to the feed chute to prevent the can heads from being withdrawn at the return movement of the can head feed slide g.
- the base or lower end G of the can head feed chute corresponds in size to the can head and registers accurately in line with the can body holding and sizing device B C, so that these two devices G and B C serve to register the can head and can body accurately in line with each other at the time the body and head are forced together by the pistons or plungers D.
- the squeezing jaws F also may serve as a means for registering the can head and can body together and to cause the flange of the can head to pass around the end of the can body evenly and uniformly, as they are mounted on the cross head D concentric with the base G of the can head chute.
- the base G of the can head chute and the squeezing jaws F may both be considered as forming a continuation of the mold B C by which the can bodyis held and sized in position to receive the heads.
- the intermittently revolving wheel B which carries the part molds B is operated by a ratchet B on the shaft B of wheel B, which is engaged by a pawl 13 pivoted to a swinging arm 13 which is operated from the crank shaft K by means of the crank K thereon, connecting link K lever K and connecting link K extending from the lower arm of said lever K to said swinging arm B
- the wheel B is locked in position by means of a looking pawl or bolt I) which engages a notched rim 0 on the shaft of said wheel B.
- the locking bolt 1) is withdrawn at intervals by means of a cam or projection 12 on the swinging arm
- the locking bolt Z) is secured to a reciprocating slide b having a pin or projection b with which the cam or projection b on the swinging arm 13 comes in contact when said arm B is drawn back by the connecting link K, as before described, into position for causing the pawl 13 to engage the next tooth of the ratchet B and turn the wheel B another step.
- the cross head 0 which carries the reciprocating part mold O is operated by cams O O on the crank shaft'K.
- the cross heads D which carry the pistons D, fluxing devices E, the seaming devices F and the can head feed devices Gr g are reciprocated back and forth by means of cams D" on the conntershafts D said countershafts D being connected by beveled gears (Z cl with the crank shaft K.
- the crimping jaws F are reciproeated in their guides F on the cross head D by means of cams F F on the crank shaft K which operate the slide Feonnected by a link F to one of said crimping jaws F; and the remaining crimping jaws are operatedfrom this crimping jaw by means of the connecting links f and crank shafts f which are pivoted to the cross head D and which crank shafts are furnished with eccentrics for operating the slides F.
- the can head feed slides g are operated by cams G G on the countershaft G whieh engagea bell crank lever G pivoted at G to the frame, the upper end of which is pivoted at g to a pivoted link g to which is pivotally connected a second link 9 which is connected at its opposite end to the slide 9 bya swiveling coupling g
- the radial movement of the operating lever is compensated for, while at the same time the feed slide is permitted to have its necessary transverse movement with the cross head D upon which it is mounted.
- the fluxing device E is given a step by step revolving movement by means of a ratchet E which is operated by a pawl E pivoted to a swinging arm E which is actuated by a link E from the crank E the shaft E of which is revolved by a gear E which meshes with a gear E on the shaft of the intermittently revolving wheel B.
- the can bodies are delivered to the can body feed wheel B by a feed belt or conveyer II.
- the can head feed chute G at the upper portion thereof beyond the can head feed slide 9 which receives the loose heads is provided on opposite sides alternately with can shaped projections g" which serve to twist or tilt two adjoining heads in the chute into crossing or intersecting planes for the purpose of preventing one head lapping or slipping beyond another and wedging in the chute.
- This isclearly illustrated in Figs. 2 and 9.
- the flanges on the can heads are IOO gravity. It will of course be understood that the projections g are'located the width or diameter of the can head apart so that one projection will operate upon "one can head and the other projection operate on the-succeeding can head and thus tilt the two so that they will cross each other.
- acan body heading machine the combination witha can body feed wheel B furnished with can body holding pockets B, of a can' body holding device 0 cooperating therewith, a can head centering device, a can head applying plunger. Dfor forcing the can head upon the body, and a fluxing device E' arranged adjacent to said feed wheel B and adapted to cooperate in turn with each of said can body holding pockets thereon, said can body holding pockets B serving to hold or support the can bodies, each in turn, while being operated on by said fluxing device, and said feed wheel B serving to move or convey the can bodies from said fluxing device to the can head centering device and can head applying plunger,substantially as specified.
- a can heading machine the combination with a can body feed device, of a device for holding the can body in position, a device for centering the can head in line with the can body, a device for forcing the can head upon the body, and a reciprocating andre- 5.
- a can heading machine the combination of a can body feed device, of a device for holding the can body in position, a device for centeringthe can head in line with the can body, a device for forcing the can head upon .the body, a reciprocating and revolving fluxing device E, and a trough or vessel E for containing the acid or flux, substantially as specified.
- a can heading machine the combination with a can body feed device and a device for holding the can body in position for application of the head thereto, adevice for centering the can head in line with the can body, a piston or plunger D for forcing the can head and body together, a cross head or slide i device and a device for holding the canbody,
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Sealing Of Jars (AREA)
Description
' (No Model.) v 7 Sheets-Sheet 1.
B. NORTON 8; J G. HODGSON. CAN HEADING MAGHINE N0. 522,270. Patented July 3, 1894,
Wz'zvzesses J71 2215715073.
Jaw. 46.61% 6 062 M 2 Nb Model.) TShets-Sheet 2..
B. NORTON &J. G. HODGSON.
- v v CAN READING MAGHINE No 522,270,
Paterited July 3,1894.
272 eg'r/ffa m qy-g (No Model.) *2 SheetsSheet 3.
E. NORTON& J. G. HODGSON.
CAN READING MACHINE.
No. 522,270; Patented July 3-, 1894.
WWW/III (No Model.) 7 Sheets-Sheet 4. E. NORTON 8v J. G HODGSON.
CAN READING MACHINE,
N0. 522,270. Patented July 3, 1894.
m: lumns PETERS 0a.. PNOTO-UI'MQ/WASMINMDM D. c.
(No Model.) v 7 sheet sneet 6.
E. NORTON & J. G. HODGSON.
CAN HEADING MACHINE. N0.v522,270. Patented July 3, 1894.
7% Wrasse-s 1 JOHN G, Holmsolv JnY/en Z 0 f5."
EDWIN NoRrolv' m: mums vzrzns 0a., mo roumm, WLSHINFTON, n c.
(No Model.) 7 7 Sheet s- Shefe t '1.
E. NORTON 8v J. G. HODGSON;
v GAN H'EADING MACHINE. No. 522,270. Patented July .3, 1894.
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: NORRIS PE ERS co, vnorouma. wnnmm'ou D c UNITE STATES PATENT FFIQE.
EDWIN NORTON AND JOHN G. HODGSON, OF MAYWOOD, ASSIGNORS TO SAID NORTON, AND OLIVER W.NOR TON, OF CHICAGO, ILLINOIS.
CAN-HEADING MACHINE.
SPECIFICATION forming part of Letters Patent No. 522,270, dated July 3, 1894. s
7 Application filed July 23, 1892. Renewed March 14, 1894. serial No. 503,561. (No model.)
To all whom it may concern.-
Be it known that we, EDWINNORTON and JOHN G. HODGSON, citizens of the United States, residing in Maywood, in the county of Cook and State of Illinois, have invented a new and useful Improvement in Can-Heading Machines, of which the following is a specifi:
cation.
Our invention relates to machines forautomatically applying the heads or ends to the bodies of sheet metal cans.
It relates more particularly to the machine heretofore patented to us in Letters Patent of the United States No. 294,065, of February 26, 18-84.
The object of our present invention is to provide means for automatically applying acid or other flux to the ends of the can body prior to the application of the seaming of the heads thereto; and also to improve and further perfect the mechanism for automatically feeding the heads into position for.applica-' furnished with a pad on its inner face in connection with a trough or vessel for holding the acid or flux, and in which the rim of the disk revolves. The aciding or fluxing device is preferably mounted upon the same reciprocating slide or cross head which carries the head applying piston and the seaming devices, so that one movement of this cross head may serve to apply the flux to the end of one can body and to apply the head to the next succeeding can body.
The means or mechanism employed for holding and truing up the can body while the heads are applied thereto consists, preferably, of two opening and closing half-molds or pockets which surround the can body and true it up into shape to receive the heads by exerting external pressure upon its periphery.
One of these part molds is preferably mounted upon a reciprocating slide or cross head and the other upon an intermittently revolving wheel- This intermittently revolving wheel is provided with a series of part molds upon its periphery, each of which coacts in turn with the reciprocating part mold, and this wheel thus serves as the device for feeding or con veying the can bodies first into position for the application of the flux thereto and then into position for theapplication of the heads thereto. 7 v
The means or device for applying and forcing the heads upon the can bodies consists of reciprocating pistons or plungers which are preferably mounted upon the same slides that carry the seaming devices or jaws.
The seaming devices, especially where the cans to be operated upon are rectangular, preferably consist of reciprocating jaws or dies.
In the accompanying drawings which form a part of this specification and in which similarletters of reference indicate like parts, Figure 1 is a plan view of a machine embodying our invention. Fig. 2 is aside elevation. Fig. 3 is a detail elevation showing the can head feed chute and the can head feed device operating in conjunction therewith. Fig. 4 is a section on line 4-4. of Fig. 3. Fig. 5 is a section on line 5-5 of Fig. 3. Fig. 6 is asection on line 66 of Fig. 3. Fig. 7 is an enlarged detail section taken on line 77 of Fig. l and showing an elevation of the fluxing device. Fig. 8 is a section on line 8-8 of Fig. 7. Fig. 9 is a detail view of the can head chute. Fig. 10 is a section on line 10 10 of Fig. 1. Fig. 1 and Fig. 12 is an elevation of the mechanism for operating the crimpingorsqueezing aws.
In the drawings A represents the frame of the machine.
B are the half-molds or pockets for holding and sizing the can body, which are mounted upon the intermittently revolving wheel B.
C is the reciprocating half mold carried by Fig. 11 is a section online 11 11 of the slide or cross head O which coacts with IOC ing the can heads upon the can bodies, the same being mounted upon the slides or cross heads D.
F F are the clamping or seaming devices, the same consisting preferably of reciprocating slides mounted in suitable guides F on the cross head D.
E is the aeiding or fluxing device consisting, preferably, of a pad or cushion carried by the revolving disk E, the rim of which revolves in a trough or vessel E for containing the flux. 1
G is the can head feed chute or passage along which the can heads are fed into position for application to the body of the can. The can head feed chutes G are mounted upon the same reciprocating cross head D which carries the pistons D, the fluxing device E and the seaming or crimping jaws F. The can head feed chute G is furnished with a reciprocating feed slide g mounted in suitable guides g, the same being furnished with pawls or feed fingers g which are held in place by springs 9 Corresponding spring pawls g are afiixed to the feed chute to prevent the can heads from being withdrawn at the return movement of the can head feed slide g. The base or lower end G of the can head feed chute corresponds in size to the can head and registers accurately in line with the can body holding and sizing device B C, so that these two devices G and B C serve to register the can head and can body accurately in line with each other at the time the body and head are forced together by the pistons or plungers D. The squeezing jaws F also may serve as a means for registering the can head and can body together and to cause the flange of the can head to pass around the end of the can body evenly and uniformly, as they are mounted on the cross head D concentric with the base G of the can head chute.
So far as performing the function of applying the can head to the can body is concerned, the base G of the can head chute and the squeezing jaws F may both be considered as forming a continuation of the mold B C by which the can bodyis held and sized in position to receive the heads.
The intermittently revolving wheel B which carries the part molds B is operated by a ratchet B on the shaft B of wheel B, which is engaged by a pawl 13 pivoted to a swinging arm 13 which is operated from the crank shaft K by means of the crank K thereon, connecting link K lever K and connecting link K extending from the lower arm of said lever K to said swinging arm B The wheel B is locked in position by means of a looking pawl or bolt I) which engages a notched rim 0 on the shaft of said wheel B. The locking bolt 1) is withdrawn at intervals by means of a cam or projection 12 on the swinging arm The locking bolt Z) is secured to a reciprocating slide b having a pin or projection b with which the cam or projection b on the swinging arm 13 comes in contact when said arm B is drawn back by the connecting link K, as before described, into position for causing the pawl 13 to engage the next tooth of the ratchet B and turn the wheel B another step. The cross head 0 which carries the reciprocating part mold O is operated by cams O O on the crank shaft'K.
The cross heads D which carry the pistons D, fluxing devices E, the seaming devices F and the can head feed devices Gr g are reciprocated back and forth by means of cams D" on the conntershafts D said countershafts D being connected by beveled gears (Z cl with the crank shaft K. The crimping jaws F are reciproeated in their guides F on the cross head D by means of cams F F on the crank shaft K which operate the slide Feonnected by a link F to one of said crimping jaws F; and the remaining crimping jaws are operatedfrom this crimping jaw by means of the connecting links f and crank shafts f which are pivoted to the cross head D and which crank shafts are furnished with eccentrics for operating the slides F. The can head feed slides g are operated by cams G G on the countershaft G whieh engagea bell crank lever G pivoted at G to the frame, the upper end of which is pivoted at g to a pivoted link g to which is pivotally connected a second link 9 which is connected at its opposite end to the slide 9 bya swiveling coupling g By this double link and double pivoted connection of the operating lever G to the feed slide g, the radial movement of the operating lever is compensated for, while at the same time the feed slide is permitted to have its necessary transverse movement with the cross head D upon which it is mounted.
The fluxing device E is given a step by step revolving movement by means of a ratchet E which is operated by a pawl E pivoted to a swinging arm E which is actuated by a link E from the crank E the shaft E of which is revolved by a gear E which meshes with a gear E on the shaft of the intermittently revolving wheel B.
The can bodies are delivered to the can body feed wheel B by a feed belt or conveyer II.
V The can head feed chute G at the upper portion thereof beyond the can head feed slide 9 which receives the loose heads is provided on opposite sides alternately with can shaped projections g" which serve to twist or tilt two adjoining heads in the chute into crossing or intersecting planes for the purpose of preventing one head lapping or slipping beyond another and wedging in the chute. This isclearly illustrated in Figs. 2 and 9. The flanges on the can heads are IOO gravity. It will of course be understood that the projections g are'located the width or diameter of the can head apart so that one projection will operate upon "one can head and the other projection operate on the-succeeding can head and thus tilt the two so that they will cross each other.
We claim- 1. The combination with a-device for holding the can body, of a device for centering the can head in line with the body, a device for forcing the can head upon the body, a device for applying fiux to the end of the can body before the application of the can head thereon, and a movable can body carrier or conveyor furnished with can body holding pockets for conveying the can bodies from said fluxing device to said can head centering and applying devices, said fluxing device being arranged adjacent to said can' body carrier or conveyer, and each of the can body holding pockets on said carrier coactingin turn with the fluxing device and serving to hold or supportthe can body while being operated upon by the fluxing device, and also coacting in turn with said can head centering and applying devices, substantially as specified.
' 2. In acan body heading machine, the combination witha can body feed wheel B furnished with can body holding pockets B, of a can' body holding device 0 cooperating therewith, a can head centering device, a can head applying plunger. Dfor forcing the can head upon the body, and a fluxing device E' arranged adjacent to said feed wheel B and adapted to cooperate in turn with each of said can body holding pockets thereon, said can body holding pockets B serving to hold or support the can bodies, each in turn, while being operated on by said fluxing device, and said feed wheel B serving to move or convey the can bodies from said fluxing device to the can head centering device and can head applying plunger,substantially as specified.
Thecombination witha device forholding the can body, of a device for centering the can head in line with the body, a device for forcing the can head upon the body, a device for applying flux to the end of the can body before the application of the can head thereon, means for conveying the can bodies,
from said fluxing device to said can head centering and applying devices, and a cross head or slide D upon which said fluxing device is mounted and by which it is brought into contact with the end of the can body, substantially as specified.
4. In a can heading machine, the combination with a can body feed device, of a device for holding the can body in position, a device for centering the can head in line with the can body, a device for forcing the can head upon the body, and a reciprocating andre- 5. In a can heading machine, the combination of a can body feed device, of a device for holding the can body in position, a device for centeringthe can head in line with the can body, a device for forcing the can head upon .the body, a reciprocating and revolving fluxing device E, and a trough or vessel E for containing the acid or flux, substantially as specified.
6. In a can heading machine, the combination with a can body feed device and a device for holding the can body in position for application of the head thereto, adevice for centering the can head in line with the can body, a piston or plunger D for forcing the can head and body together, a cross head or slide i device and a device for holding the canbody,
of a piston or plunger D for forcing the can head and body together, a cross head or slide D for operating the same, a fluxing device E carried by said cross head, and a seaming or crimping device also mounted upon said cross head, substantially as specified. 8. The combination witha can body feed device and a device forholding the can body, of a piston or plunger D for forcing the can head and body together, a cross head or slide D for operating the same, a fluxing device E carried by said cross head, a seaming or crimping device also mounted upon said cross head, and a can head feed chute also mounted upon said cross head, substantially as specified.
9. The combination with a can body feed device and a device for holding the can body, of a piston or plunger D for forcing the can head and body together, a cross head or slide D for operating the same, a fiuxingdeviceE carried by said cross head, a seaming or crimping device also mounted upon said cross head, and a can head feed chute also mounted upon said cross head, said can head feed chute being provided with a reciprocating can head feed slide, substantially as specified.
10. The combination with a can body feed device and adevice for holding the can body, of a piston or plunger I) for forcing the can head and body together, a cross head or slide D for operating the same, a fluxing device E carried by said cross head, a seaming or crimping device also mounted upon said cross head, and a can head feed chute also mounted upon said cross head, said can'head feed chute being provided with a reciprocating can head feed slide furnished with a pawl for engaging the canheads, substantially as specified.
11. The combination with a can'body feed device auda device for holding the can body, of a piston or plunger D for forcing the can head and body together, a cross head or slide D for operating the same, a fluxing deviceE carried by said cross head, a seaming or crimping device also mounted upon said cross head, and a can head feed chute also mounted upon said cross head, said can head feed chute being provided with a reciprocating can head feedslide furnished with a pawl for engaging the can heads, and said can head feed chute having a pawl to prevent the backward movement of the can heads therein, substantially as specified.
12. The combination in a can heading machine of a can head feed chute mounted upon a reciprocating slide or cross head and furnished with a reciprocating can head feed slide, substantially as specified.
13. The combination in a can heading machine of a can head feed chute mounted upon a reciprocating slide or cross head and furnished with a reciprocating can head feed slide, and said can head feed slide being provided with a feed pawl for engaging the can heads, substantially as specified.
14. The combination in a can heading machine of a can head feed chute mounted upon a reciprocating slide or cross head and furnished with a reciprocating can head feed slide, said can head feed slide being provided with a feed pawl for engaging the can heads, and said can head feed chute having a pawl to prevent the backward movement of the can heads therein, substantially as specified.
15. The combination in a can heading machine of acan head feed chute mounted upon a reciprocating slide or cross head and furnished with a reciprocating can head feed slide, and mechanism for reciprocating the cross head upon which said feed chute is mounted, and mechanism for reciprocating the can head feed slide on said chute, substantially as specified.
16. The combination in a can heading machine of a can head feed chute mounted upon a reciprocating slide or cross head and furnished with a reciprocating can head feed slide, mechanism for reciprocating the cross head upon which said feed chute is mounted and mechanism for reciprocating the can head feed slide on said chute, said last mentioned mechanism consisting of an operating lever connected to said feed slide by two double pivoted links, substantially as specified.
17. The combination in a can heading machine of a can head feed chute or passage with a reciprocating can head feed slide G for moving the can heads along in said chute or passage, substantially as specified.
18. The combination in a can heading machine of a can head feed chute or passage with a reciprocating can head feed slide G for moving the can heads along in said chute or passage, said feed slide being furnished with pawls or fingers for engaging the cans, substantially as specified.
19. The combination in a can heading machine of a can, head feed chute or passage with a reciprocating can head feed slide G for moving thecan heads along in said chute or passage, said feed slide being furnished with pawls or fingers for engaging the cans, and said chute being furnished with spring pawls for preventing the backward move-- ment of the can heads therein, substantially as specified.
20. The combination of an opening and closing two part device B C for embracing and holding the can body, of a device for centering the can head in line with the can body, a device for forcing the can head upon the can body, a can body conveyor, and a reciprocat ing and revolving fiuxing device for applying flux tothe end of the can body prior to the application of the head thereon, substantially as'specified.
21. The combination of an opening and closing two part device B O for embracing and holding the can body, of a device for centering the can head in line with the can body, a device for forcing the can head upon the can body, a can body con veyer, and a pair of movable fluxing pads E E adapted to be forced against the end of the can body, said pads E E embracing the entire end of the can-body, and a reciprocating and revolving fluxing device for applying flux to the end of the can body prior to the application of the head thereon, substantially as specified.
22. The combination with an opening and closing two part device B C for embracing and holding the can body, of adevice for centering the can head in line with the can body, a can head feed chute or device for delivering the can heads to said can head centering device, a device for forcing the can head upon the can body, a can body conveyor, and adevice for applying flux to the end of the can body before the application of the head thereon, substantially as specified.
28. The combination with an opening and closing two part device 13 O for embracing and holding the can body, of a device for contering the can head in line with the can body, a device for forcing the can head upon the can body, a can body conveyer, and a device for applying flux to the end of the can body before the application of the head thereon, and a device for seaming and crimping the head upon the can body, substantially as specified.
24. The combination with a device for holding and supporting the can body, of a revolving and reciprocating can body fluxing disk pad E adapted to embrace the entire end of the can body, and a trough or vessel E for holding the flux and in which the rim of said disk revolves, substantially as specified.
25. In a can heading machine the combina tion with an opening and closing device for holding the can body, of a device for centetchute to cross each other at an angle, and ing the can head in line with the can body, a thus preventtheir slipping or lapping by each :0 device for forcing the can head and body toother, substantially as specified.
gether, and a can head feed chute G, fur- EDWIN NORTON.
5 nished with oppositely disposed projections JOHN G. HODGSON.
g g on the inner side wall of the chute, Witnesses: adapted to engage the flat or disk portion of H. M. MUNDAY,
the can heads and cause the can heads in the EMMA HACK.
Publications (1)
| Publication Number | Publication Date |
|---|---|
| US522270A true US522270A (en) | 1894-07-03 |
Family
ID=2591065
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US522270D Expired - Lifetime US522270A (en) | Can-heading machine |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US522270A (en) |
-
0
- US US522270D patent/US522270A/en not_active Expired - Lifetime
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