US1272764A - Can-end separator and feeder. - Google Patents

Can-end separator and feeder. Download PDF

Info

Publication number
US1272764A
US1272764A US16897717A US16897717A US1272764A US 1272764 A US1272764 A US 1272764A US 16897717 A US16897717 A US 16897717A US 16897717 A US16897717 A US 16897717A US 1272764 A US1272764 A US 1272764A
Authority
US
United States
Prior art keywords
stack
detents
movement
supporting
feeder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US16897717A
Inventor
George W Blankenhorn
Thomas Castberg
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US16897717A priority Critical patent/US1272764A/en
Application granted granted Critical
Publication of US1272764A publication Critical patent/US1272764A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01LCHEMICAL OR PHYSICAL LABORATORY APPARATUS FOR GENERAL USE
    • B01L9/00Supporting devices; Holding devices
    • B01L9/54Supports specially adapted for pipettes and burettes
    • B01L9/543Supports specially adapted for pipettes and burettes for disposable pipette tips, e.g. racks or cassettes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H3/00Separating articles from piles
    • B65H3/32Separating articles from piles by elements, e.g. fingers, plates, rollers, inserted or traversed between articles to be separated and remainder of the pile
    • B65H3/322Separating articles from piles by elements, e.g. fingers, plates, rollers, inserted or traversed between articles to be separated and remainder of the pile for separating a part of the pile, i.e. several articles at once
    • B65H3/325Separating articles from piles by elements, e.g. fingers, plates, rollers, inserted or traversed between articles to be separated and remainder of the pile for separating a part of the pile, i.e. several articles at once the pile being pre-marked

Definitions

  • WITNESSES o 1 Fwy: 5. flmr e Wmamemom Z/wms aszeiy KM W4 UNITE S ATES PATJ. I i
  • This invention relates to a can end separator and feeder.
  • One of the objects of the present invention is to provide a simple, compact, cheaply n'lanufactured machine provided with means for receiving and guiding a stack of can ends, and in conjunction therewith to provide a plurality of movable members which support, separate and release the ends one by one from the bottom of the stack.
  • Another object of the invention is to provide a plurality of movable members which may be either oscillated or continuously rotated while they are supporting, separating and releasing the can ends one by one.
  • Another object of the invention is to provide positive means for oscillating or rotating the said members in unison. Further objects will hereinafter appear.
  • Fig. 2 is a plan view of the same.
  • Fig.3 is a detail plan view of the can end supporting, separating and releasing members.
  • Fig. 4 is an enlarged detail view showing the can end stack supported by the upper ledge and the lowermost can end in released posltion.
  • Fig; 5 is a view similar to Fig. 4 showing the can end stacks supported by the lower ledge.
  • A indicates a frame of suitable size and shape which may be supported by a bracket extension 2.
  • a bracket extension 2 Formed in the upper portion of the frame is a plurality of bearing members 4 and extending through each bearing 'memher and journaled therein is a shaft 3.
  • Freely turnable in an annular circular flange 5 formed on the upper side of the frame is an internal gear 6 which is secured against upward movement or vertical displacement by a cover plate 7.
  • a spur gear 8 Secured on the upper end of each shaft 3 is a spur gear 8 which isadapted to constantly mesh with the teeth formed on the internal gear and secured on the lower end of each shaft 3 is a pair of can end supporting, separating and releasing members.
  • These members consistin realityof a pair of superposed shoulders or detents 9 and 10 which are adapted to alternately engage the can ends in the stack, as will hereinafter be described.
  • the upper face of the ledge 9 is flat and forms a continuous horizontally positioned supporting shoulder extending a little more than one-half the circumference of the hub member 11 upon which it is formed, the ends being preferably beveled or tapered, as shown at 12, to permit a free engagement or release with relation to the ends in the stack.
  • the lower face of the ledge 9 is beveled, as at 13, and said bevel conforms with the outer edge of each can end.
  • the spacing between the upper face of the ledge 9 and the upper face of the ledge 10 is equal to the thickness of the outer beveled can end flange 14 shown in Figs. 1, 4 and 5.
  • the lower ledge also extends a little more than one-halfthe circumference of the hub member 11 and its upper surface is also continuous and horizontally positioned in parallelism with the upper face of the ledge 9, the lower face being beveled, as at 15, and the ends flared, as at 16, to permit of free release of the ends one by one as will be described.
  • any suitable means may be employed for the purpose of receiving and guiding the can end stack, but three rods 18, 19 and 20 evenly spaced and adjustably secured in the frame A are preferably employed. These rods may extend above the upper side of the frame any suitable distance and may therefore serve as a guide for a can end stack of any suitable height.
  • the shaftshown at 3 in Figs. 1 and 2 is preferably provided with a bevel gear 21 on its lower end which remains in constant mesh with a bevel gear 22 secured upon a driving shaft 23 to which power may be transmitted in any suitable manner.
  • a eontinuation of the rotary movement will, however, move the detents 9 into engagen ient with the second lowest, end invthe stack a moment before the lower detentsmove out of engagement.
  • the overlapping ,of the upper and lower detents as shown in Figs. 3,5l and 5,.permits the upper detents to engage the second lowest end in the stack before the lower detents release the lowermost end in the stack.
  • a further rotation will, of course, turn the lower v detents entirely out of engagement with the lowermost end in the stack and will, therefore, leave this suspended or free to drop away from the stack upon an inclined chute 24 or any other suitable means which will remove it from the machine.
  • a further rotation will again bring the lower detents into alinement with the can and stack a moment before the upper detents move out ofengagement and they will therefore be in position to receive the weight of the can end stack the moment it is released by the upper detents 9.
  • the whole stack therefore drops the distance of the thickness of one can end flange when released by the upper set of detents and will therefore remain supported by the lower set of detents until the upper set of detents again engages thestack and supports the same whilethe lowermost end is being released by the lower set of detents.
  • the upper surface of the lower detents serves as a supporting shelf for the entire can end stack and the upper face of the up-' per detents also serves, as a supporting shelf for the entire stack.
  • the detents alternately support theentire stack and it is therefore possible to release the ends oneby one when a revolving movement is transmitted to the several sets of supporting, separating and releasing detents.
  • thelower face of the uppe" detents is inclined, as shown at "13, it can This movement is in turn readily be seen that said detents can enter into engagement with the ends of the stack without lifting the stack asutheangle presented by said face fits the angular face of the can :end'fianges.
  • the stack therefore, gradually drops from one set of detents to another while feeding and an upwardfmovement of the stack at any time is entirely eliminated, thereby permitting greater speed and less damage to the ends as actual impact or raising movement is positively averted.
  • the cutting away of, the detents a distance equal. to approximately half the circumference leaves a than sufficient to permit the stack to drop from one set of detentsto another, in other words, making it possible to separate and release the ends almost as fast as specific gravity will permit the ends to drop. Practically any speed may, therefore, be. obtained. i
  • the oscillating movementimparted to the internal gear is, of 'course, transmitted through the gears 8 l'Q the shafts 3 carrying the supporting, separating'and releasing detents' ,This movement, so far as the detents are concerned, maybe less than 45, or, in other words, just sufficient to bring the upper and lower detents alternately into and out of engagement with the ends in the stack.
  • the oscillating movement has been found advantageous when the feeder is used in connection with certain types of machines and the two methods of -driving or operating the detents 9 and 10 are therefore described.
  • the bevel gears 21 and 22 may be removed when an oscillating movement is transmitted.
  • v i i It is understood that the lever 30 may be removed when continuous rotary motion is transmitted.
  • a crank arm might be secured upon the shaft 23 to transmit an oscillating movement and that the materials and'finish of the several parts employed maypbe' such as the experience and judgment of the manufacturer may dictate.
  • a frame having a central opening formed therein means for receiving and guiding a stack of can ends, a plurality of shafts j 0urnaled in the frame adjacent the central opening, a pair of overlapping supporting shoulder members carried by each shaft, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, and means for transmitting a movement to the shafts in unison which will bring each pair of supporting shoulders alternately into and out of engagement with the can end stack.
  • a frame having a central opening formed therein, a plurality of vertically positioned rods secured adjacent said opening adapted to receive and guide a can end stack, a plurality of shafts journaled in the frame adjacent the central opening, a collar member secured on each shaft, a pair ofoverlapping supporting shoulders formed on each collar, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, and means for transmitting a continuous rotary movement to the shafts in unison to bring each pair of supporting shoulders alternately into and out of engagement with the can end stack.
  • a frame having a central opening formed therein, a plurality of vertically positioned rods secured adjacent said opening adapted to receive and guide a can end stack, a plurality of shafts journaled in the frame adjacent the central opening, a collar member secured on each shaft, a pair of overlapping supporting shoulders formed on each collar, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, a gear secured on each shaft, an internal gear intermeshing with said gears, and means for transn'iitting a rotary movement to the internal gear to bring the supporting shoulders alternately into and out of engagement with the can end stack.
  • a separating device including a rotatable support mounted on a vertical axis and carrying a pair of circumferential ledges or detents, each ledge of approximately 180 in length and ar ranged in different planes slightly spaced one from the other, so that the can end may drop from one ledge to the otherand finally off of the lowermost edge by the rotative movement of the support.
  • a separating device including a rotatable support mounted on a Vertical axis and carrying a pair of circumferential ledges or detents, each ledge of approximately 180 in length and arranged in different planes slightly spaced one from the other, so that the can end may drop from one ledge tothe other and finally off of the lowermost edge by the rotative movement of the support, said ledges being wedge-shaped for entry between the can ends.

Description

G. W. BLANKENHORN & T. CASTBERG.
CAN END SEPARATOR AND FEEDER. APPLICATION FILED MAY 16, 1917.
M May Patented July 16, 1918.
2 SHEETS-SHEET 1.
INVENTORSI george WBmnAen/wrn 15.7mm iyezy BY//%& mm
A'rronwmws G. W. BLANKENHORN 81 T. CASTBERG. CAN END SEPARATOR AND FEEDER.
APPLICATION FILED mAYxe. 1917.
1 ,2? 2,76% Patented July 16, 1918.
2 SHEETSSHEET 2.
IN VENTORS.'
WITNESSES: o 1 Fwy: 5. flmr e Wmamemom Z/wms aszeiy KM W4 UNITE S ATES PATJ. I i
GEORGE W. BLANKENHORN AND THOMAS CASTIBEBG, OF SAN FRANCISCO, CALIFORNIA.
CAN-END SEPABATOR AND FEEDER.
7 Specification of Letters Patent.
Patented July 16, 1918.
Application filed May 16, 1917. Serial No. 168,977.
To all whomz't may concern: 7
Be it known that we, GEORGE W. BLANK- ENHORN and THOMAS CAsTBERo, citizens of the United States, residing at the city and county of San Francisco and State of California, have invented new and useful Improvements in Can-End Separators and Feeders, of which the following is a specification.
This invention relates to a can end separator and feeder.
One of the objects of the present invention is to providea simple, compact, cheaply n'lanufactured machine provided with means for receiving and guiding a stack of can ends, and in conjunction therewith to provide a plurality of movable members which support, separate and release the ends one by one from the bottom of the stack. Another object of the invention is to provide a plurality of movable members which may be either oscillated or continuously rotated while they are supporting, separating and releasing the can ends one by one. Another object of the invention is to provide positive means for oscillating or rotating the said members in unison. Further objects will hereinafter appear. I
The invention also consists of the parts and the construction and combination of parts hereinafter more fully described and claimed, having reference to the accompanying drawings, in which- Figure 1 is a central, vertical section of the can end separator and feeder.
Fig. 2 is a plan view of the same.
Fig.3 is a detail plan view of the can end supporting, separating and releasing members.
Fig. 4 is an enlarged detail view showing the can end stack supported by the upper ledge and the lowermost can end in released posltion.
Fig; 5 is a view similar to Fig. 4 showing the can end stacks supported by the lower ledge.
Referrin to the drawings in detail, A indicates a frame of suitable size and shape which may be supported by a bracket extension 2. Formed in the upper portion of the frame is a plurality of bearing members 4 and extending through each bearing 'memher and journaled therein is a shaft 3. Freely turnable in an annular circular flange 5 formed on the upper side of the frame is an internal gear 6 which is secured against upward movement or vertical displacement by a cover plate 7. Secured on the upper end of each shaft 3 is a spur gear 8 which isadapted to constantly mesh with the teeth formed on the internal gear and secured on the lower end of each shaft 3 is a pair of can end supporting, separating and releasing members. These members consistin realityof a pair of superposed shoulders or detents 9 and 10 which are adapted to alternately engage the can ends in the stack, as will hereinafter be described. The upper face of the ledge 9 is flat and forms a continuous horizontally positioned supporting shoulder extending a little more than one-half the circumference of the hub member 11 upon which it is formed, the ends being preferably beveled or tapered, as shown at 12, to permit a free engagement or release with relation to the ends in the stack.
The lower face of the ledge 9 is beveled, as at 13, and said bevel conforms with the outer edge of each can end. The spacing between the upper face of the ledge 9 and the upper face of the ledge 10 is equal to the thickness of the outer beveled can end flange 14 shown in Figs. 1, 4 and 5. The lower ledge also extends a little more than one-halfthe circumference of the hub member 11 and its upper surface is also continuous and horizontally positioned in parallelism with the upper face of the ledge 9, the lower face being beveled, as at 15, and the ends flared, as at 16, to permit of free release of the ends one by one as will be described.
There are three sets of superposed ledges employed in the present instance, thereby providing a three point support for the can end stack, and as two ledges are employed at each supporting point, it can readily be seen that the three upper sets of ledges and the three lower sets of ledges will alternately support the can end stack, which in this instance passes through a central opening 17 formed in the frame.
Any suitable means may be employed for the purpose of receiving and guiding the can end stack, but three rods 18, 19 and 20 evenly spaced and adjustably secured in the frame A are preferably employed. These rods may extend above the upper side of the frame any suitable distance and may therefore serve as a guide for a can end stack of any suitable height. The shaftshown at 3 in Figs. 1 and 2 is preferably provided with a bevel gear 21 on its lower end which remains in constant mesh with a bevel gear 22 secured upon a driving shaft 23 to which power may be transmitted in any suitable manner.
In operation with power transmitted to the S112LIft-23,&lt -C2b11 readily be seen-thata continuous rotary movement will be transmitted to the shaft 3 through the bevel gears ,21and 22. transn iitted through the spur gear 8'- to the internal gear 6, which in turn transmits, a continuous rotary movement to the spur gears S's'ecured on the remaining two shafts shown at This continuous rotary movement transmitted revolves the detents9 and 10' into and out of engagement with the two lowermost ends in the stack. 'For instance, referring toFigL 5, it eanbe seen thatthe lower set of ledges 10 are supporting the stack as the upper ledges are out v0f engagen' ent with the same. A eontinuation of the rotary movement will, however, move the detents 9 into engagen ient with the second lowest, end invthe stack a moment before the lower detentsmove out of engagement. The overlapping ,of the upper and lower detents, as shown in Figs. 3,5l and 5,.permits the upper detents to engage the second lowest end in the stack before the lower detents release the lowermost end in the stack. A further rotation will, of course, turn the lower v detents entirely out of engagement with the lowermost end in the stack and will, therefore, leave this suspended or free to drop away from the stack upon an inclined chute 24 or any other suitable means which will remove it from the machine. A further rotation will again bring the lower detents into alinement with the can and stack a moment before the upper detents move out ofengagement and they will therefore be in position to receive the weight of the can end stack the moment it is released by the upper detents 9. The whole stack therefore drops the distance of the thickness of one can end flange when released by the upper set of detents and will therefore remain supported by the lower set of detents until the upper set of detents again engages thestack and supports the same whilethe lowermost end is being released by the lower set of detents.
"The upper surface of the lower detents serves as a supporting shelf for the entire can end stack and the upper face of the up-' per detents also serves, as a supporting shelf for the entire stack. The detents, however, alternately support theentire stack and it is therefore possible to release the ends oneby one when a revolving movement is transmitted to the several sets of supporting, separating and releasing detents. In View of the fact that thelower face of the uppe" detents is inclined, as shown at "13, it can This movement is in turn readily be seen that said detents can enter into engagement with the ends of the stack without lifting the stack asutheangle presented by said face fits the angular face of the can :end'fianges. The stack, therefore, gradually drops from one set of detents to another while feeding and an upwardfmovement of the stack at any time is entirely eliminated, thereby permitting greater speed and less damage to the ends as actual impact or raising movement is positively averted. The cutting away of, the detents a distance equal. to approximately half the circumference leaves a than sufficient to permit the stack to drop from one set of detentsto another, in other words, making it possible to separate and release the ends almost as fast as specific gravity will permit the ends to drop. Practically any speed may, therefore, be. obtained. i
While a continuous rotary movement has been described, we wish it understood that an oscillating movement may also be imparted to the detents. WVith this ,objeet'in view a lever extension 30 has, been provided and secured to the internal gear 6. This lever passes through a slot formed in the annular rim 5 and a link 31 connected to the lever and any oscillating or rotating member can, therefore, transmit an Oscillating movement to the internal gear as the lever extension 30 isfreeto move back and forth in the slot formed in the-rim. The oscillating movementimparted to the internal gear is, of 'course, transmitted through the gears 8 l'Q the shafts 3 carrying the supporting, separating'and releasing detents' ,This movement, so far as the detents are concerned, maybe less than 45, or, in other words, just sufficient to bring the upper and lower detents alternately into and out of engagement with the ends in the stack. "The oscillating movement has been found advantageous when the feeder is used in connection with certain types of machines and the two methods of -driving or operating the detents 9 and 10 are therefore described. The bevel gears 21 and 22 may be removed when an oscillating movement is transmitted. v i i It is understood that the lever 30 may be removed when continuous rotary motion is transmitted. It is also'understood that a crank arm might be secured upon the shaft 23 to transmit an oscillating movement and that the materials and'finish of the several parts employed maypbe' such as the experience and judgment of the manufacturer may dictate.
The, essential feature of this invention is,
the IHQChftI'IlSHLfOI' supporting and releasing can ends singly from a column through the rotative movement of ,detent meinbers sueh as'91'0, arranged on a vertical support,- the time period more lOQ detent members being disposed at different levels suitably spaced so that the edge of a can end of a column may drop successively from one ledge to the other and finally be discharged from the lowermost edge through the rotative movement of the support; this rotative movement being, of course, either continuous rotary or oscillatory motion.
It is manifest that various changes in the details of construction may be made in the device without departing from the spirit of 'tion to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, and means for transmitting a movement to the shafts in unison which will bring each pair of supporting shoulders alternately into and out of engagement with the can end stack.
2. In a can end separator and feeder, a frame having a central opening formed therein means for receiving and guiding a stack of can ends, a plurality of shafts j 0urnaled in the frame adjacent the central opening, a pair of overlapping supporting shoulder members carried by each shaft, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, and means for transmitting a movement to the shafts in unison which will bring each pair of supporting shoulders alternately into and out of engagement with the can end stack.
3. In a can end separator and feeder, a frame having a central opening formed therein, a plurality of vertically positioned rods secured adjacent said opening adapted to receive and guide a can end stack, a plurality of shafts journaled in the frame adjacent the central opening, a collar member secured on each shaft, a pair ofoverlapping supporting shoulders formed on each collar, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, and means for transmitting a continuous rotary movement to the shafts in unison to bring each pair of supporting shoulders alternately into and out of engagement with the can end stack.
4:. In a can end separator and feeder, a frame having a central opening formed therein, a plurality of vertically positioned rods secured adjacent said opening adapted to receive and guide a can end stack, a plurality of shafts journaled in the frame adjacent the central opening, a collar member secured on each shaft, a pair of overlapping supporting shoulders formed on each collar, said shoulders being offset with relation to each other and superposed to assume different planes, the distance between the shoulders in a vertical direction being equal to the thickness of one can end flange, a gear secured on each shaft, an internal gear intermeshing with said gears, and means for transn'iitting a rotary movement to the internal gear to bring the supporting shoulders alternately into and out of engagement with the can end stack.
5. In a can end separator, a separating device including a rotatable support mounted on a vertical axis and carrying a pair of circumferential ledges or detents, each ledge of approximately 180 in length and ar ranged in different planes slightly spaced one from the other, so that the can end may drop from one ledge to the otherand finally off of the lowermost edge by the rotative movement of the support.
6. In a can end separator, a separating device including a rotatable support mounted on a Vertical axis and carrying a pair of circumferential ledges or detents, each ledge of approximately 180 in length and arranged in different planes slightly spaced one from the other, so that the can end may drop from one ledge tothe other and finally off of the lowermost edge by the rotative movement of the support, said ledges being wedge-shaped for entry between the can ends.
In testimony whereof we have hereunto set our hands in the presence of two subscribing witnesses.
GEORGE W. BLANKENHORN, THOMAS CASTBERG.
Witnesses:
W. W. HEALEY, M. E. EWING.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents.
- Washington, D. 0.
US16897717A 1917-05-16 1917-05-16 Can-end separator and feeder. Expired - Lifetime US1272764A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US16897717A US1272764A (en) 1917-05-16 1917-05-16 Can-end separator and feeder.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US16897717A US1272764A (en) 1917-05-16 1917-05-16 Can-end separator and feeder.

Publications (1)

Publication Number Publication Date
US1272764A true US1272764A (en) 1918-07-16

Family

ID=3340383

Family Applications (1)

Application Number Title Priority Date Filing Date
US16897717A Expired - Lifetime US1272764A (en) 1917-05-16 1917-05-16 Can-end separator and feeder.

Country Status (1)

Country Link
US (1) US1272764A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680510A (en) * 1952-01-19 1954-06-08 George A Donath Battery group assembling apparatus
US2721002A (en) * 1949-05-25 1955-10-18 Colborne Mfg Company Plate depositor
US2880907A (en) * 1957-03-06 1959-04-07 Artez F Mainers Article dispenser
US3198382A (en) * 1963-10-14 1965-08-03 William O Cleary Apparatus for dispensing nested containers
US3253722A (en) * 1963-12-04 1966-05-31 American Can Co End closure feeding apparatus

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2721002A (en) * 1949-05-25 1955-10-18 Colborne Mfg Company Plate depositor
US2680510A (en) * 1952-01-19 1954-06-08 George A Donath Battery group assembling apparatus
US2880907A (en) * 1957-03-06 1959-04-07 Artez F Mainers Article dispenser
US3198382A (en) * 1963-10-14 1965-08-03 William O Cleary Apparatus for dispensing nested containers
US3253722A (en) * 1963-12-04 1966-05-31 American Can Co End closure feeding apparatus

Similar Documents

Publication Publication Date Title
US1272764A (en) Can-end separator and feeder.
US845415A (en) Cap-feeding machine.
CN104899961B (en) A kind of bank note for bus converts zero machine
US1253797A (en) Can-end separating and feeding machine.
US522546A (en) Island
US1161577A (en) Automatic apparatus for feeding caps or crowns.
US1092613A (en) Mechanism for feeding can ends.
ES2750729T3 (en) Device for separating test objects
US732987A (en) Automatic feeder mechanism for bottle-stoppering machines, &c.
US306807A (en) Device for feeding shells of caps to machines
US1501700A (en) Feeding attachment for crown-cork-making machines
US297495A (en) Machine for making buttons
US1240202A (en) Button-feeding machine.
US387482A (en) Grinding-machine
US1448713A (en) Feed mechanism
US522979A (en) Device
US1134887A (en) Machine for feeding rings.
US1128967A (en) Can-top dropper.
US152545A (en) Improvement in machines for cutting corks
US165991A (en) Improvement in tower-clocks
US1077393A (en) Double-seaming can-machine.
US1042769A (en) Gearing.
US709657A (en) Pea-sheller.
US988082A (en) Pill-machine.
US409297A (en) Hoop-driving machine