US1022581A - Feeding mechanism. - Google Patents

Feeding mechanism. Download PDF

Info

Publication number
US1022581A
US1022581A US54119910A US1910541199A US1022581A US 1022581 A US1022581 A US 1022581A US 54119910 A US54119910 A US 54119910A US 1910541199 A US1910541199 A US 1910541199A US 1022581 A US1022581 A US 1022581A
Authority
US
United States
Prior art keywords
blanks
movement
forwarding
carrier
feeding mechanism
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
US54119910A
Inventor
Harry J Douglass
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 US54119910A priority Critical patent/US1022581A/en
Application granted granted Critical
Publication of US1022581A publication Critical patent/US1022581A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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

Definitions

  • My invention relates, in' particular, to mechanism for -feeding blankssuccessively to forming machines, and the primary object thereof is the provision of simple and eiicient apparatus for effecting such actions with respect to sheet blanks for can-forming machines.
  • Figure 1 is a plan of my improved mechanism in such form as now preferred by me.
  • Fig. 2 is a side velevation thereof with portions of some of the'parts broken away, and Fig. 3 is a rear end elevation in partial section.
  • the invention comprises means for reciprocating blanks in a mass, means for diverting blanks successively from the mass, and Ameans for forwarding the blanks diverted.
  • the forwarding means herein shown comprises rollers 1 and 2 connected by spur gears 10 and applied in conjunction with the re- ,ciprocator 4 and the diverting means 5, to
  • the reciprocator as shown, comprises a rectangular frame or container 40, adapted to receive the blanks, as B, atwise, the same being hinged, as at 42, to a rear bottom section 43, slidably, mounted on guides 44l secured' to frame 3.
  • hangers may be shifted to adjust the roller longitudinally of ⁇ the frame, as may be desired.
  • the means for divertin the blanks is conveniently inthe form of a pneumatic device comprising a vacuum cup 50 secured to a tubular extension or arm 51 of a rock shaft'52, which latter' is provided with a connecting passageway 52 extending to one end of the shaft for communication with an air pump or the like through the medium of a suitable connecting means not shown.
  • Shaft 52 is mounted in fixed bearings 53 on the guides 44 and secured to a spring-retracted arm 54 having a wiper 55 which is engaged with a one-throw cam 56 secured l to the drive shaft 57 of the forming machine,
  • crank 48 journaled in' bracket ex.- tension 59 of the bearing 59 of shaft 57 and connectedwith said shaft, for relative rotation at a ratio of one to one and with the heel 56 ofscam 56 at a lag of substantially 180 degrees relatively to the pin of the crank, by link belt gearing, as 60.
  • This 'crank ⁇ is connected by means of a rod 48 with a wrist'pin 47 secured to bottom section 43 of the reciprocator.
  • Roller 2 is journaled in yoke 24 while roller 1 is journaled in yoke 25 and connected'by means of gears 26 with a drive shaft 27 which is mounted in a bearing 25 of yoke 25 and connected by suitalle means, not shown, with shaft 57 for operation to drive the rollersl and 2 at suitable speed V'to forward the blanks advanced thereto clear
  • frame 40 moves back and forth with its guided bottom section 43, under action of crankl 48, while cup moves toward and from the path of the frame responsively to movements of arm 54 under action of its spring and cam which operate conjoint-ly to apply the cup to draw down the forward portion of the lower blankl clear of the path of the frame, duringv its retractive'movement, and retain such portion in lowered 4position during forward movement thereof, which forward movement advances the'diverted blank over the cup to the .forwarding rollers 1 and 2 and moves the remainingblanksA upwardly. onA
  • deiector 49 which laction serves to overcome adhesion between the'tins.
  • a feeding' mechanism comprising means for supporting blanks in -superimposed relation for reciprocatory movement
  • a feeding mechanism comprising a re- -ciprocatory container for the blanks, means for operating said container, a diverter supported below said container for movement to and from the path thereof for -diverting the blanks successively from their normal path of travel,l means for operating said diverter, me'ans for forwarding the diverted blanks, and meansl arranged to engage the upper blanks and lift the saine during movement of said containelysaid last means lying adjacent one end of the path of said container and having an inclined upper guiding face.
  • a feeding mechanism comprising means for supporting blanks in superimposed relation for movement, means for operating the same, a forwarding means at one side of said first means consisting of a pair of rollers, vand means for engaging the blanks in said first means at one end portion for holding the same for movement between said rollers.
  • a vacuum gripping device supported for movement to and from said first .means for successively diverting the blanks thereon, means for operating said devlce to grip and divert the blanks, and means for operating t said -irst'means to convey the diverted blanks to said forwarding means.
  • a feeding mechanism comprising means -for supporting blanks in superimposed -relation for movement, said means comprising a slidably supported bottom section and an' upper section of. open form hinged thereto, means for operating said first means, a forwarding means at the under side of said first means, an engaging device supported beneath said Iirst means for movement to and from the blanks thereof, and means for operating said devicejfor engaging and diverting the blanks successive- Sively to said forwarding means.
  • a feeding mechanism In a feeding mechanism the combination with means for diverting and forwarding blanks, of a support, a' conveyer for a supply of blanks mounted on said support for movement to and from said diverting means, and an adjusting device arranged for operation during movement of said conveyer to adjust the mass of blanks and thereby relievethe blank diverted by said diverting means.
  • a device arranged in the path of said blanks to adjust the mass of blanks vfrom one diverted by said diverting means.
  • a carrier supported for reciprocatory movement for conveying a supply of blanks, a diverter-supported for defiecting thel blanks on said carrier successively, means controlling said diverter to deflect blanks during one stroke of said carrier, and mechanism arranged to engage a deflected blank and hold the same Vagainst movement with said carrier.
  • a carrier ⁇ supported for reciprocatory movement for conveying ⁇ a .supply of blanks, a holding4 mechanlsm adjacent one end of the path of said carrier, means for reciprocating said carrier,
  • Infeeding mechanism a carrier supported for reciprocatory movement vfor con- 1,o22,5s1 v v 8 veying a supply of blanks,/a/holding mech'-y anism adjacent one end of the path of said carrier, means for reciprocating said carrier to advance the deflected blanks to said holding means, a device arranged in the path of said blanks to divert the same successively to said holding mechanism during moveinent of said carrier, and a device arranged of January 1910.

Description

H. J. DOUGLASS.
FEBDING MEGHANISM.
APPLICATION FILED JAN. s1, 1910.
Wi tamano f Jef/M.
H. J. DOUGLASS. .PEBDI'NG MECHHANISM. APPLIGATION FILED JAN. 31, 1910.
v Patented Apr. 9, 1912,.
Y 3 SHEETS-SHEET 2.
anvar/Ikon HARRY J'. DOUGLASS, 0F BELLINGHAM, WASHINGTON.
FEEDING MEGHANISM.
Specification of Letters Patent.
Patented Apr. 9, 1912.
Application led lTanuary 31, 1910. Serial No. 541,199.
To all whom it may concern:
Be it known that I, HARRY J. DoUGLAss, a citizen of the United States of America, and a resident of the cit-y of Bellingham, in the county of Whatcom and State of Wash-` ington, have invented certain new and useful Improvements in Feeding Mechanism, of which the following is a specification.
My invention relates, in' particular, to mechanism for -feeding blankssuccessively to forming machines, and the primary object thereof is the provision of simple and eiicient apparatus for effecting such actions with respect to sheet blanks for can-forming machines. Y
The invention resides in certain novel features in the constructions, combinations and arrangements of parts as set forth in the following description and defined in the ap, pended claims.
Inthe accompanying drawings, wherein like reference characters designate corresponding parts throughout: Figure 1 is a plan of my improved mechanism in such form as now preferred by me. Fig. 2 is a side velevation thereof with portions of some of the'parts broken away, and Fig. 3 is a rear end elevation in partial section.
The invention comprises means for reciprocating blanks in a mass, means for diverting blanks successively from the mass, and Ameans for forwarding the blanks diverted. l
The forwarding means herein shown comprises rollers 1 and 2 connected by spur gears 10 and applied in conjunction with the re- ,ciprocator 4 and the diverting means 5, to
the frame, as 3, of the forming machine. The reciprocator as shown, comprises a rectangular frame or container 40, adapted to receive the blanks, as B, atwise, the same being hinged, as at 42, to a rear bottom section 43, slidably, mounted on guides 44l secured' to frame 3.
41 designates a bearing roller for the blanks conveniently mounted on hangers 45 having angular, extensions j provided with suitable slots receiving clamping bolts 46 seated in the side Walls of frame 40, whereby, when said bolts are loosened, the
hangers may be shifted to adjust the roller longitudinally of` the frame, as may be desired.
The means for divertin the blanks is conveniently inthe form of a pneumatic device comprising a vacuum cup 50 secured to a tubular extension or arm 51 of a rock shaft'52, which latter' is provided with a connecting passageway 52 extending to one end of the shaft for communication with an air pump or the like through the medium of a suitable connecting means not shown. Shaft 52 is mounted in fixed bearings 53 on the guides 44 and secured to a spring-retracted arm 54 having a wiper 55 which is engaged with a one-throw cam 56 secured l to the drive shaft 57 of the forming machine,
which shaft is driven in the direction indicated by the arrow in Fig. 2.
For operating the reciprocator 4 I have shown a crank 48 journaled in' bracket ex.- tension 59 of the bearing 59 of shaft 57 and connectedwith said shaft, for relative rotation at a ratio of one to one and with the heel 56 ofscam 56 at a lag of substantially 180 degrees relatively to the pin of the crank, by link belt gearing, as 60. This 'crank` is connected by means of a rod 48 with a wrist'pin 47 secured to bottom section 43 of the reciprocator.
49 designates means for` adjusting the mass of blanks to relieve the diverted blank, the same as shown consisting of an inclined deflector extending into the path of the reciprocator and provided with a slotted stem 49 engaged by clamping bolts 49" seated in a spring-pressed yoke 24 which is hinged as at 24 to a similar yoke 25 secured to frame 3.
Roller 2 is journaled in yoke 24 while roller 1 is journaled in yoke 25 and connected'by means of gears 26 with a drive shaft 27 which is mounted in a bearing 25 of yoke 25 and connected by suitalle means, not shown, with shaft 57 for operation to drive the rollersl and 2 at suitable speed V'to forward the blanks advanced thereto clear In operation, frame 40 moves back and forth with its guided bottom section 43, under action of crankl 48, while cup moves toward and from the path of the frame responsively to movements of arm 54 under action of its spring and cam which operate conjoint-ly to apply the cup to draw down the forward portion of the lower blankl clear of the path of the frame, duringv its retractive'movement, and retain such portion in lowered 4position during forward movement thereof, which forward movement advances the'diverted blank over the cup to the .forwarding rollers 1 and 2 and moves the remainingblanksA upwardly. onA
deiector 49, which laction serves to overcome adhesion between the'tins.'
Having thus described my invention, what I claim as new, and desire to secure by Letters Patent of the United States of America, l
is: n
1. A feeding' mechanism comprising means for supporting blanks in -superimposed relation for reciprocatory movement,
means at the side of the path of said rst verter, means for forwarding the diverted blanks, and means arranged to engage the upper blanks and lift the same during movement of said container. v
3. A feeding mechanism comprising a re- -ciprocatory container for the blanks, means for operating said container, a diverter supported below said container for movement to and from the path thereof for -diverting the blanks successively from their normal path of travel,l means for operating said diverter, me'ans for forwarding the diverted blanks, and meansl arranged to engage the upper blanks and lift the saine during movement of said containelysaid last means lying adjacent one end of the path of said container and having an inclined upper guiding face.
4. A feeding mechanism comprising means for supporting blanks in superimposed relation for movement, means for operating the same, a forwarding means at one side of said first means consisting of a pair of rollers, vand means for engaging the blanks in said first means at one end portion for holding the same for movement between said rollers.
means, a vacuum gripping device supported for movement to and from said first .means for successively diverting the blanks thereon, means for operating said devlce to grip and divert the blanks, and means for operating t said -irst'means to convey the diverted blanks to said forwarding means.
6. A feeding mechanism comprising means -for supporting blanks in superimposed -relation for movement, said means comprising a slidably supported bottom section and an' upper section of. open form hinged thereto, means for operating said first means, a forwarding means at the under side of said first means, an engaging device supported beneath said Iirst means for movement to and from the blanks thereof, and means for operating said devicejfor engaging and diverting the blanks succes- Sively to said forwarding means. 7. In a feeding mechanism the combination with means for diverting and forwarding blanks, of a support, a' conveyer for a supply of blanks mounted on said support for movement to and from said diverting means, and an adjusting device arranged for operation during movement of said conveyer to adjust the mass of blanks and thereby relievethe blank diverted by said diverting means.
8. In a feeding mechanism, the combination with means for diverting and forwarding blanks, of a conveyer for a supply of blanks supported lfor reciprocatory movement to present the blanks for operation of said diverting and forwarding means, and
a device arranged in the path of said blanks to adjust the mass of blanks vfrom one diverted by said diverting means.
9. In feeding mechanism, a carrier supported for reciprocatory movement for conveying a supply of blanks, a diverter-supported for defiecting thel blanks on said carrier successively, means controlling said diverter to deflect blanks during one stroke of said carrier, and mechanism arranged to engage a deflected blank and hold the same Vagainst movement with said carrier.
10. In feeding mechanism, a carrier `supported for reciprocatory movement for conveying `a .supply of blanks, a holding4 mechanlsm adjacent one end of the path of said carrier, means for reciprocating said carrier,
fand a device arranged in the path of said blanks to divert the same successively during movement of said carrier for movement by the latter to said holdingmechanism.
1l. Infeeding mechanism, a carrier supported for reciprocatory movement vfor con- 1,o22,5s1 v v 8 veying a supply of blanks,/a/holding mech'-y anism adjacent one end of the path of said carrier, means for reciprocating said carrier to advance the deflected blanks to said holding means, a device arranged in the path of said blanks to divert the same successively to said holding mechanism during moveinent of said carrier, and a device arranged of January 1910.
Signed at Bellingham, Wash. this 18 day HARRY J. DOUGLASS.
Witnesses R. AMUNDsoN, ROY WEAVER.
US54119910A 1910-01-31 1910-01-31 Feeding mechanism. Expired - Lifetime US1022581A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US54119910A US1022581A (en) 1910-01-31 1910-01-31 Feeding mechanism.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US54119910A US1022581A (en) 1910-01-31 1910-01-31 Feeding mechanism.

Publications (1)

Publication Number Publication Date
US1022581A true US1022581A (en) 1912-04-09

Family

ID=3090878

Family Applications (1)

Application Number Title Priority Date Filing Date
US54119910A Expired - Lifetime US1022581A (en) 1910-01-31 1910-01-31 Feeding mechanism.

Country Status (1)

Country Link
US (1) US1022581A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3394930A (en) * 1965-05-12 1968-07-30 Graphicart Int Apparatus for the individual separation of folded paper articles from a stack of such articles

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3394930A (en) * 1965-05-12 1968-07-30 Graphicart Int Apparatus for the individual separation of folded paper articles from a stack of such articles

Similar Documents

Publication Publication Date Title
US2233935A (en) Sheet handling machine
US1868283A (en) Sheet reversing device for gumming machines
US1022581A (en) Feeding mechanism.
US2339268A (en) Article delivery
US2113650A (en) Sheet delivery device
US1263885A (en) Cloth-handling means for sponging and shrinking machines.
US1235499A (en) Pneumatic blank-transferring mechanism.
US3448978A (en) Paper-feeding method and machine
US1551331A (en) risser
US1331977A (en) Automatic paper-layer for printing-machines
US1517255A (en) Sheet-feeding mechanism
US510630A (en) Gluing machine
US805098A (en) Sheet separating and feeding mechanism.
US1159638A (en) Sheet-delivery apparatus for printing-machines.
US1054394A (en) Paper-feeder.
US876987A (en) Feed and delivery attachment for printing-presses.
US1316430A (en) Apparatus for separating amd feeding sheets to cold rolls
US547763A (en) Apparatus for
US1666165A (en) Sheet-feeding machine
US624228A (en) leiger
US624227A (en) leiger
US2263891A (en) Sheet feeder
US1403720A (en) Label-applying machine
US2176176A (en) Sheet feeding mechanism
US765962A (en) Feeder for sheets of paper, &c.