US1669726A - Attachment for bottle-capping machines - Google Patents

Attachment for bottle-capping machines Download PDF

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Publication number
US1669726A
US1669726A US501428A US50142821A US1669726A US 1669726 A US1669726 A US 1669726A US 501428 A US501428 A US 501428A US 50142821 A US50142821 A US 50142821A US 1669726 A US1669726 A US 1669726A
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cap
bottle
machine
bottles
screwing
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US501428A
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Arthur M Seale
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Paragon Can & Cap Co Inc
Paragon Can & Cap Company Inc
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Paragon Can & Cap Co Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67BAPPLYING CLOSURE MEMBERS TO BOTTLES JARS, OR SIMILAR CONTAINERS; OPENING CLOSED CONTAINERS
    • B67B3/00Closing bottles, jars or similar containers by applying caps
    • B67B3/20Closing bottles, jars or similar containers by applying caps by applying and rotating preformed threaded caps
    • B67B3/204Linear-type capping machines
    • B67B3/2046Linear-type capping machines using friction means for screwing the caps, e.g. belts or wheels

Definitions

  • the present invention relates to machines for applying closures to receptacle and more particularly to machines for applying closures of the screw type.
  • An object of the invention is to provide a machine of the above character in which the closures may be applied to the receptacles with great ra idity and without in- ,j-ury to the receptac es or to the coating on the closures.
  • Another object of the invention is to apply the screw closures to the receptacles by exerting longitudinal pressure on the closures first to seat them and then imparting a rotary movement to the closures for securing them tightly on the receptacles.
  • Another object of the invention consists in providing certain improvements in the construction, form and arrangement of the several parts whereby the above named and other objects may be eilectively attained.
  • FIG. 1 represents a detail side elevation of a bottle capping machine embodying my invention.
  • Fig. 2 represents a detail top plan view of the same.
  • Fig. 3 represents a detail transverse section taken in the plane of the line IIIHI of Fig.1, looking in the direction of the arrows.
  • Fig. 4 represents one of the caps in side elevation.
  • Fig. 5 represents the same in bottom plan.
  • Fig. 6 represents a section taken centrally through the cap.
  • the cap which my machine is intended to apply is herein shown as comprising the top 1, the depending flange 2 and the segmental inclined projections 3 which are formed by cutting away the bottom edge of the depending flange 2 and turning the projecting portions inwardly. Stops 4 are provided for limiting the rotary movement of the cap,
  • stops are herein shown as formed by distorting the segmental projections 3 at their rear ends.
  • the bottle to which the cap is to be ap plied is herein shown as being provided with exterior segmental projections 5 forming a plurality of shoulders arranged to receive eneath them the internal segmental projections 3 of the cap.
  • the mechanisms for feeding the bottles, feeding the caps thereto and the ejection of the bottles may be of any well known or approved form, the parts of the mechanisms illustrated in the accompanying drawings being of the type disclosed in the copending application of Robert G. Clark, filed April 14, 1920, Serial No. 373,922.
  • the machine includes a frame comprising two opposite pairs of upper and lower longitudinal side bars 6, 7, 8, 9, suitably con nected.
  • the main drive shaft 10 is mounted in suitable bearings in brackets 11, 12 on the side bars 7, 9 and it is arranged so as to extend diagonally across the machine. It may be provided at one end with a pulley 13 adapted to receive a belt in order to impart rotary motion to the shaft from a suitable source of power (not shown).
  • a conveyer belt 14 adapted for feeding the bottles 15 leads longitudinally through the machine between the side bars 6, 8 and rests on tracks 16, 17.
  • This conveyor belt may be driven at the desired speed from any suitable source of power (not shown) in or” der to feed the bottles into and eject them from the machine.
  • a chute or other suitable means 18 is provided for delivering the caps successively on to the mouths of successive bottles, which means may be of any well known or approved form.
  • the bottle with its cap loosely positioned thereon is passed intothe machine beneath a spring pressed top guide 19 which extendslongitudinall through the machine.
  • the rear end of tlns guide 19 is securcdto a top bar 20 which surmounts the frame.
  • Bolts 21 projecting from the top guide 19 extend loosely through the top bar 20 and above the same they are provided with nuts 22 for limiting the downward movement of the top guide.
  • Springs 23 surrounding the bolts 21 are located between the top guide 19 and the bottom of the top bar 20 for yieldingly holding the top guide at the limit of its downward movement.
  • this top guide 19 may be turned upwardl as shown at 24 to more readily permit t e passage of the bottle with the cap loosely positioned thereon into engagement with the top guide.
  • Side guides 25, 26 are arranged in position to engage the opposite sides of the loosely ositioned cap as the bottle and cap are fed into the machine. These guides are so arranged and constructed as to impart a reverse or unscrewing movement to the cap as the bottle with its cap passes between said side guides so as to ensure the seating of the cap before the cap reaches its mechanism for In the present instance this is accomplished by polishing the contact face of one of the side guides, as for instance the contact face of the guide and by providing a rubber or other friction face 27 for the other side guide, in the present instance the cap 26.
  • the side uide 25 is shown as fixedly supported by ars 28 depending from the top bar 20 and the side guide 26 is shown as yieldingly supported by the bars 29 depending from the top bar 20.
  • This yielding movement of the side guide 26 is provided for by a bolt 30 and pin 31 extending laterally from the side guide 26 through a block 32 fastening to the depending bars 29, a nut 33 on the bolt 30, serving to limit the movement of the side guide 26.
  • Springs 34, 35 on the bolt and pin 30, 31 serve to yieldingly hold the side guide at the limit of its inward movement.
  • the means which I have shown for exerting normal longitudinal pressure on the cap when the cap and bottle reach the position where the cap is to be screwed onto the bottle comprises a spring pressed plunger 36 having a shank 37 slidably mounted in a recess 38 in the top bar 20, said shank having an upwardly extending pin 39 around which a coil spring 40 is provided within the recess 38 for yielding y holding the plunger 36 at the limit of its downward movement, pressed against the top of the top guide 19.
  • a wearing plate 41 is preferably interposed between the bottom of the plunger 36 and the top guide 19 for reducing wear at this point.
  • This plunger 36 is provided with a circumferential flange 42 arranged in position to be engaged by the auxiliary longitudinal pressure exerting means, to be hereinafter described.
  • the means which I have shown for exerting additional longitudinal pressure on the cap and to thereafter rotate the cap to secure it in position on the bottle is constructed, arranged and operated as follows I provide two oppositely inclined rotary elements, as for instance discs or wheels 43, 44, each of which bears a cam carrying segment 45 and a cap screwing segment 46, the cam being denoted by 47.
  • the segment 46 may be provided with a friction facing or band 48 of leather or other suitable material.
  • These discs or wheels 43, 44 are carried at the upper ends of oppositely inclined upright shafts 49, 50, mounted in bearings contained in brackets 51, 52 that are secured to the outer faces of the side bars 6 and 8 of the machine frame.
  • Collars 53, 54 are pinned on the shafts 49, to hold the same against downward longitudinal movement in their bearings.
  • the shafts 49, 50 are driven from the main shaft 10 through the worm wheels and worms 55, 56 and 57, 58 respectively.
  • the cams 47 carried by the segments 45 are arranged to simultaneously engage the top shoulder formed by the flange 42 upon opposite sides of the plunger 36 and press the plunger downwardly with still eater pressure than the pressure of its spring 40, to exert unyielding longitudinal pressure on the cap to ensure the proper seating of the cap before the cap is screwed onto the bottle.
  • t e cap will be maintained in its seated osition until the friction surfaces 48 of t e segments 46 will come into rolling frictional contact with the opposite sides of the bottle cap for imparting a rotary movement, in the present instance a combined longitudinal and rotary movement to screw the cap tightly onto the bottle.
  • the rotary movement of the cap is limited by the engagement of the stops 4 on the segmental projections 3 with the segmental projections 5 on the bottle.
  • the length of the screw segments may be varied to suit caps of different types and that the position of the cams with respect to the screwing segments may be varied to suit different requirements. While the preferred embodiment of the invention is exemplified in a machine for capping bottles, it is obvious that its features are applicable for applying and screwing caps to receptacles of any character.
  • a top guide for the cap and rotary means having a cam arranged to exert unyielding longitudinal pressure on the cap through the top guide and also having a segment arranged to engage the cap to impart a rotary movement to the cap.
  • a top guide for the cap and coacting rotary devices located on opposite sides of the cap and having cams arranged to simul-. taneously exert unyielding longitudinal pressure on the cap through the top guide and also having segments arranged to impart a rotary movement to the cap.
  • cap positioning means including yielding side and top guides and a rotary device having a cam arranged to exert unyielding longitudinal pressure on the cap through the top guide and also having a segment arranged to engage the side of the cap to impart a rotary movement thereto.
  • cap positioning means including yielding side and top guides, and coacting rotary devices located on opposite sides of the cap and having cams arranged to simulcaps onto taneously exert an ielding longitudinal pressure on the cap tirough said top guide and also having segments arranged to engage the opposite sides of the cap for imparting a rotary movement to the cap.
  • rotary means comprising an inclined shaft carrying two segments, one having a cam for exerting longitudinal pressure on the cap and the other having a friction surface arranged to engage the side of the cap for imparting a rotary movement thereto.
  • rotary means comprising two oppositely inclined shafts, each carrying two segments, one having a cam for exerting longitudinal pressure on the cap and the other having a friction surface arranged to engage the side of the cap for imparting a rotary movement thereto.
  • means for feeding a bottle with its cap loosely positioned thereon means for imparting an unscrewing movement to the cap to seat the same, said means including a side guide having a friction surface engaging the side of the cap,- and means for screwing the ca onto the bottle.
  • a machlne for screwing caps onto bottles means for feeding a bottle with its cap loosely positioned thereon, means for imparting an unscrewing movement to the cap to seat the same, said means including side guides, one having a non-friction surface engaging the cap and the other a friction surface engaging the cap, and means for screwing the cap onto the bottle.
  • means for feeding a bottle with its cap loosely positioned thereon means for imparting an unscrewing movement to the cap to seat the same, said means including side guides, one having a non-friction sur face engaging the cap and the other a friction surface engaging the cap, one of said guides being yieldlngly mounted, and means for screwing the cap onto the bottle.

Description

,May 15, 1928.
A. M. SEALE ATTACHHENT FQR BOTTLE CAPPING MACHINES Filad Sept. 17, 1921 3 Sheets-Sheet 1 May 15, 1928. 1,669,726
'A. M. SEALE AmAcmnr-iabn BOTTLE CAPPING mama's Fi dse t. 17. 1921 s Sheets-Sheet 2 May 15, 192& 1,669,726
A. M. SEALE ATTACHMENT FOR BOTTLE CAPPING MACHINES Filed Sept. 1'7. 1921 s Sheet-Sheet .5
PATENT OFFICE.
ARTHUR H. BELLE, 0F BROOKLYN, NEW YORK, OOIPANY, INC., OF BROOKLYN, NEW YORK,
ASSIGNOR ro PARAGON CAN & cAie A CORPORATION or NEW YORK.
\TTACH'MENT FOR BOTTLE-CAPPING MACHINES.
Application filed September 17, 1921. Serial No. 501,428.
The present invention relates to machines for applying closures to receptacle and more particularly to machines for applying closures of the screw type.
An object of the invention is to provide a machine of the above character in which the closures may be applied to the receptacles with great ra idity and without in- ,j-ury to the receptac es or to the coating on the closures.
Another object of the invention is to apply the screw closures to the receptacles by exerting longitudinal pressure on the closures first to seat them and then imparting a rotary movement to the closures for securing them tightly on the receptacles.
Another object of the invention consists in providing certain improvements in the construction, form and arrangement of the several parts whereby the above named and other objects may be eilectively attained.
Other and further objects of the invention will be obvious upon an understanding of the illustrative embodiment about to be de scribed or will be indicated in the appended claims, and various advantages not referred to herein will occur to one skilled in the art upon employment of the invention in practice.
A preferred embodiment of the invention has been chosen for purposes of illustration and description and is shown in the accompanying drawings, wherein Fig. 1 represents a detail side elevation of a bottle capping machine embodying my invention.
Fig. 2 represents a detail top plan view of the same.
Fig. 3 represents a detail transverse section taken in the plane of the line IIIHI of Fig.1, looking in the direction of the arrows.
Fig. 4 represents one of the caps in side elevation.
Fig. 5 represents the same in bottom plan.
Fig. 6 represents a section taken centrally through the cap.
The cap which my machine is intended to apply is herein shown as comprising the top 1, the depending flange 2 and the segmental inclined projections 3 which are formed by cutting away the bottom edge of the depending flange 2 and turning the projecting portions inwardly. Stops 4 are provided for limiting the rotary movement of the cap,
which stops are herein shown as formed by distorting the segmental projections 3 at their rear ends.
The bottle to which the cap is to be ap plied is herein shown as being provided with exterior segmental projections 5 forming a plurality of shoulders arranged to receive eneath them the internal segmental projections 3 of the cap.
The mechanisms for feeding the bottles, feeding the caps thereto and the ejection of the bottles may be of any well known or approved form, the parts of the mechanisms illustrated in the accompanying drawings being of the type disclosed in the copending application of Robert G. Clark, filed April 14, 1920, Serial No. 373,922.
The machine includes a frame comprising two opposite pairs of upper and lower longitudinal side bars 6, 7, 8, 9, suitably con nected. The main drive shaft 10 is mounted in suitable bearings in brackets 11, 12 on the side bars 7, 9 and it is arranged so as to extend diagonally across the machine. It may be provided at one end with a pulley 13 adapted to receive a belt in order to impart rotary motion to the shaft from a suitable source of power (not shown).
A conveyer belt 14:, adapted for feeding the bottles 15 leads longitudinally through the machine between the side bars 6, 8 and rests on tracks 16, 17. This conveyor belt may be driven at the desired speed from any suitable source of power (not shown) in or" der to feed the bottles into and eject them from the machine.
A chute or other suitable means 18 is provided for delivering the caps successively on to the mouths of successive bottles, which means may be of any well known or approved form. The bottle with its cap loosely positioned thereon is passed intothe machine beneath a spring pressed top guide 19 which extendslongitudinall through the machine. The rear end of tlns guide 19 is securcdto a top bar 20 which surmounts the frame. Bolts 21 projecting from the top guide 19 extend loosely through the top bar 20 and above the same they are provided with nuts 22 for limiting the downward movement of the top guide. Springs 23 surrounding the bolts 21 are located between the top guide 19 and the bottom of the top bar 20 for yieldingly holding the top guide at the limit of its downward movement. The
screwing the same onto the bottle.
front end of this top guide 19 may be turned upwardl as shown at 24 to more readily permit t e passage of the bottle with the cap loosely positioned thereon into engagement with the top guide.
Side guides 25, 26 are arranged in position to engage the opposite sides of the loosely ositioned cap as the bottle and cap are fed into the machine. These guides are so arranged and constructed as to impart a reverse or unscrewing movement to the cap as the bottle with its cap passes between said side guides so as to ensure the seating of the cap before the cap reaches its mechanism for In the present instance this is accomplished by polishing the contact face of one of the side guides, as for instance the contact face of the guide and by providing a rubber or other friction face 27 for the other side guide, in the present instance the cap 26. The side uide 25 is shown as fixedly supported by ars 28 depending from the top bar 20 and the side guide 26 is shown as yieldingly supported by the bars 29 depending from the top bar 20. This yielding movement of the side guide 26 is provided for by a bolt 30 and pin 31 extending laterally from the side guide 26 through a block 32 fastening to the depending bars 29, a nut 33 on the bolt 30, serving to limit the movement of the side guide 26. Springs 34, 35 on the bolt and pin 30, 31 serve to yieldingly hold the side guide at the limit of its inward movement.
The means which I have shown for exerting normal longitudinal pressure on the cap when the cap and bottle reach the position where the cap is to be screwed onto the bottle, comprises a spring pressed plunger 36 having a shank 37 slidably mounted in a recess 38 in the top bar 20, said shank having an upwardly extending pin 39 around which a coil spring 40 is provided within the recess 38 for yielding y holding the plunger 36 at the limit of its downward movement, pressed against the top of the top guide 19. A wearing plate 41 is preferably interposed between the bottom of the plunger 36 and the top guide 19 for reducing wear at this point. This plunger 36 is provided with a circumferential flange 42 arranged in position to be engaged by the auxiliary longitudinal pressure exerting means, to be hereinafter described.
The means which I have shown for exerting additional longitudinal pressure on the cap and to thereafter rotate the cap to secure it in position on the bottle is constructed, arranged and operated as follows I provide two oppositely inclined rotary elements, as for instance discs or wheels 43, 44, each of which bears a cam carrying segment 45 and a cap screwing segment 46, the cam being denoted by 47. The segment 46 may be provided with a friction facing or band 48 of leather or other suitable material. These discs or wheels 43, 44 are carried at the upper ends of oppositely inclined upright shafts 49, 50, mounted in bearings contained in brackets 51, 52 that are secured to the outer faces of the side bars 6 and 8 of the machine frame.
Collars 53, 54 are pinned on the shafts 49, to hold the same against downward longitudinal movement in their bearings. The shafts 49, 50 are driven from the main shaft 10 through the worm wheels and worms 55, 56 and 57, 58 respectively.
The cams 47 carried by the segments 45 are arranged to simultaneously engage the top shoulder formed by the flange 42 upon opposite sides of the plunger 36 and press the plunger downwardly with still eater pressure than the pressure of its spring 40, to exert unyielding longitudinal pressure on the cap to ensure the proper seating of the cap before the cap is screwed onto the bottle. After these cams leave their enga ement with the flange 42 of the plunger, t e cap will be maintained in its seated osition until the friction surfaces 48 of t e segments 46 will come into rolling frictional contact with the opposite sides of the bottle cap for imparting a rotary movement, in the present instance a combined longitudinal and rotary movement to screw the cap tightly onto the bottle. The rotary movement of the cap is limited by the engagement of the stops 4 on the segmental projections 3 with the segmental projections 5 on the bottle.
The means for supporting and feeding the bottles step by ste throu h the machine as Well as the means for hol ing the bottles against rotary movement will not be described as they form no part of my present invention.
From the above description it will be seen that I have provided novel means for ensuring the seating of the caps on the bottles after they have been loosely positioned thereon and that I have also provided not only means for screwing the caps tightly onto the bottle, but also novel additional means for exerting endwise pressure on the caps to ensure their being seated in proper position to catch their threads when the screwing action commences. The machine is adapted to apply the caps rapidly and securely without damage to the coating on the closures and without danger of spilling the contents of the receptacles.
It is evident that the length of the screw segments may be varied to suit caps of different types and that the position of the cams with respect to the screwing segments may be varied to suit different requirements. While the preferred embodiment of the invention is exemplified in a machine for capping bottles, it is obvious that its features are applicable for applying and screwing caps to receptacles of any character.
As various changes may be made in the above embodiment without departing from the spirit of the invention, it is to be understood that all matter herein is to be interpreted as illustrative and not in a limiting sense.
\Vhat I claim is:
1. In a machine for screwing caps onto bottles, coacting rotary devices located on opposite sides of the cap, and having elements arranged to simultaneously exert unyielding longitudinal pressure on the cap and other elements arranged to impart a 1'0- tary movement to the cap.
2. In a machine for screwing caps onto bottles, coacting rotary devices located on opposite sides of the cap and having cams arranged to simultaneously exert unyielding longitudinal pressure on the cap and segments arranged to impart a rotary movement to the cap.
3. In amachine for screwing caps onto bottles, a top guide for the cap and rotary means having a cam arranged to exert unyielding longitudinal pressure on the cap through the top guide and also having a segment arranged to engage the cap to impart a rotary movement to the cap.
4. In a machine for screwing bottles, a top guide for the cap and coacting rotary devices located on opposite sides of the cap and having cams arranged to simul-. taneously exert unyielding longitudinal pressure on the cap through the top guide and also having segments arranged to impart a rotary movement to the cap.
5. In a machine for screwing caps onto bottles, cap positioning means including yielding side and top guides and a rotary device having a cam arranged to exert unyielding longitudinal pressure on the cap through the top guide and also having a segment arranged to engage the side of the cap to impart a rotary movement thereto.
6. In a machine for screwing caps onto bottles, cap positioning means including yielding side and top guides, and coacting rotary devices located on opposite sides of the cap and having cams arranged to simulcaps onto taneously exert an ielding longitudinal pressure on the cap tirough said top guide and also having segments arranged to engage the opposite sides of the cap for imparting a rotary movement to the cap.
7. In a machine for screwing caps onto bottles, rotary means comprising an inclined shaft carrying two segments, one having a cam for exerting longitudinal pressure on the cap and the other having a friction surface arranged to engage the side of the cap for imparting a rotary movement thereto.
8. In a machine for screwing caps onto bottles, rotary means comprising two oppositely inclined shafts, each carrying two segments, one having a cam for exerting longitudinal pressure on the cap and the other having a friction surface arranged to engage the side of the cap for imparting a rotary movement thereto.
9. In a machine for screwing caps onto bottles, means for feeding a bottle with its cap loosely positioned thereon, means for imparting an unscrewing movement to the cap to seat the same, said means including a side guide having a friction surface engaging the side of the cap,- and means for screwing the ca onto the bottle.
10. In a machlne for screwing caps onto bottles, means for feeding a bottle with its cap loosely positioned thereon, means for imparting an unscrewing movement to the cap to seat the same, said means including side guides, one having a non-friction surface engaging the cap and the other a friction surface engaging the cap, and means for screwing the cap onto the bottle.
11. In a machine for screwing caps onto bottles, means for feeding a bottle with its cap loosely positioned thereon, means for imparting an unscrewing movement to the cap to seat the same, said means including side guides, one having a non-friction sur face engaging the cap and the other a friction surface engaging the cap, one of said guides being yieldlngly mounted, and means for screwing the cap onto the bottle.
In testimony, that I claim the foregoing as my invention, I have signed my name this 16th day of September, 1921.
ARTHUR M. SEALE.
US501428A 1921-09-17 1921-09-17 Attachment for bottle-capping machines Expired - Lifetime US1669726A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435127A (en) * 1945-05-19 1948-01-27 Boyle Midway Inc Capping machine
US2556339A (en) * 1946-07-22 1951-06-12 Crown Cork & Seal Co Container capping apparatus with means to retard actuation of the capping head until the container is stationary under said head
US2647672A (en) * 1946-02-11 1953-08-04 Crown Cork Specialty Corp Cap applying apparatus
US2656084A (en) * 1952-01-02 1953-10-20 Franklin Balmar Corp Jar-handling equipment for capping machines
US2734672A (en) * 1956-02-14 Container sealing apparatus
US2785521A (en) * 1952-01-02 1957-03-19 Franklin Balmar Corp Automatic machinery for screwing caps upon jars
US2819516A (en) * 1955-04-05 1958-01-14 Owens Illinois Glass Co Apparatus for assembling can spout parts
US2876605A (en) * 1958-06-19 1959-03-10 White Cap Co Machine for applying rotatable closure caps to containers

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734672A (en) * 1956-02-14 Container sealing apparatus
US2435127A (en) * 1945-05-19 1948-01-27 Boyle Midway Inc Capping machine
US2647672A (en) * 1946-02-11 1953-08-04 Crown Cork Specialty Corp Cap applying apparatus
US2556339A (en) * 1946-07-22 1951-06-12 Crown Cork & Seal Co Container capping apparatus with means to retard actuation of the capping head until the container is stationary under said head
US2656084A (en) * 1952-01-02 1953-10-20 Franklin Balmar Corp Jar-handling equipment for capping machines
US2785521A (en) * 1952-01-02 1957-03-19 Franklin Balmar Corp Automatic machinery for screwing caps upon jars
US2819516A (en) * 1955-04-05 1958-01-14 Owens Illinois Glass Co Apparatus for assembling can spout parts
US2876605A (en) * 1958-06-19 1959-03-10 White Cap Co Machine for applying rotatable closure caps to containers

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