|Publication number||US1616101 A|
|Publication date||Feb 1, 1927|
|Filing date||Apr 15, 1925|
|Priority date||Apr 15, 1925|
|Publication number||US 1616101 A, US 1616101A, US-A-1616101, US1616101 A, US1616101A|
|Inventors||Ackley Raymond E|
|Original Assignee||Donnelley & Sons Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (24), Classifications (9)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Feb. 1, 1927. 1,616,101
R. E. ACKLEY MECHANISM FOR IIRINTING BOOK EDGES Filed April 15, 1925 4sheets-sneet 1 Feb. l, 1927.
R. E. AcKLEY MECHANISM FOR PRINTING BOOK EDGES Filed April 1 5. 1925 4 Sheets-Sheet 2 Rm mm W k a Il@ S v WM LQ :wf/ 1.; w @d 16 61 1 Feb. 1,1927. Rf E. ACKLEY 1 0 MECHANISM FOR PRINTING BOOK EDGES' Fiied April 15, 1925 .4 sheeis-sheet a ZZUeWZOT Feb. -1 1.927. v R; E. ACKLEY MECHANISM Fon PRINTING BooK EDGEs Filed April 154 1925 4 sheets-sheet 4 Patented Feb. 1,' 1927.
UNITED STATES PATENT oFFlcE.
RAYMOND E. ACKLEY, OF CHICAGO', ILLINOIS, A"SSIGNOR T0 R. R.. DONNELLEY & SONS COMPANY, OF CHICAGO, ILLINOIS, A CORPORATION 0F ILLINOIS.
MECHANISM FOR PRINTING BOOK EIJGES.
Application led April 15, 19.25. Serial No. 23,323;
This invention relatesto machines for printing edges of books and the like.
The primary object is to provide a ma chine' for printing' the head and foot of a book, turning it and printing the rear edge. lit will be understood' that these edges are preferably straight trimmed ledges such as are found in telephone directories, cata.- logues and the like having paper covers.
shaft 34a so as to be freely rotatable-thereon. It will be noted that the gear 20 is larger than the gear 21Iand the gear 22 being Another object is to provide la self con-I tained printing arm which readily adapts itselfto this type of mechanism, and which is particularly adapted to print the edges while in avertical plane.
These and other objects are accomplished by this machine whichvis fully described in the following specification and shown 1n the accompanying drawings,in which:v
Figure 1 is a side elevation of thesame;
Fig. 2 is a top plan view ofthe machine;
Fig. 3 is an enlarged top 'plan view of the forward printing arms;
Fig. 4 is a section on the l1ne 4-4 of Fig. 3; v
Figs. 5, 6 and 7 are sections on the lines 5 5, 6--6 and 7--7 yof Fig. 3; and
Fig. 8 is a section on the line 8 8 of Fig. 4.
The l"machine as illustrated comprises a main frame d10 supported at the forward end by brackets 11 on the machine 12, and at the rear end bystandards 13.
A belt 14 is carried by a pulley 15 on a shaft 16 which is journaled in bearings 17,
larger than the gear 24, the pulley-25 will rotate'faster than the pulley 18 which is the same size. Likewise, the pulley 31 will rotate slower than the pulley 18', for the purpose nof'causing a book carried by these belts tovbe turned -as will later be eX- plained.
A pulley 35 is placed between the pulleys u33 and 34 and carries a belt 36 which the latter being carried by the machine 12. At the opposite end the belt 14 passes around a pulley 18which as shown in Fig. 5, is keyed to a shaft 19 which is journaled in suitable bearings in the main frame 10. A gear 20, is also keyed to the shaft 19- and meshes with a gear 21 which is secured vto a gear 22, both the latter being journaled upon the shaft 23. The gear 22 meshes wlth the gear 24 which is secured to a pulley 25, Vboth being journaled on the shaft 19, and the pulley urrying a narrow belt 26.
Likewise, the gear 27 keyed to the shaft 19 meshes with the gear 28 which is secured to the gear 29, both the, latter being Journaled on the shaft 23. The gear 29 1n turn meshes with the gear 30 which issecured to the pulley 31, over which passes the belt 32. The two belts 26 and 32 inthe opposite ends pass over pulleys 33 and 34 as shown in Fig. 2, and are suitably journaled upon apasses over a pulley 37, the latter being keyed to a shaft 38 similar to the shaft 19 which is driven in the same direction and at the same speed as the shaft 19. Belts 39- and 40 are likewise'driven at the same speed from pulleys on the same shaft as the pulley 37 and serve to carry the finished book from the machine.
An upper frame 41 (Fig. 1) is supported by means of standards 42 above the main frame 1() and carries two members 43 and 44 suspended therefrom by means of adjustable rods 45. Pulleys 46 and 47 are carried by the member 43 and over these passes a pressure belt 48.
The pressurebelt overlies the belt 14 and i firmly held) between .theltwo belts which travel in the same direction at the same speed. The mechanism for driving these belts will later be explained.
Referring now to the printing 'mechanism shown in Fig. 3, andtdriving mechanism therefor, shown in Fig. `5, the gear 2O meshes with a gear 50 which is keyed to ay shaft 51 which is lsuitably journaled on the main frame 10 and is driven from any suitable source of power. A bevel gear 52 meshes with a bevel gear 53 on the vertical shaft 54 which is liournaled in the main frame 10. A printing arm frame 55 llies above the frame 10 and is iburiialed on the shaft 54. An inking roll, 56 and a gear 57 are keved to the shaft 54, the latter meshing` with a gear 58'which is secured' to a roller 59 carrying an inking pad. this roller being journaled on a pin 60. rIlhe gear 58 meshes with a gear 61 which is journaled on a pin 62 and carries a printing roller 63 which' will later be described.
A gear 64 keyed on the shaft 54 (Fig. 5)
an idler gear 68 which in turn meshes with a gear 69'Which is keyed to a shaft 70 which is journaled in a casting 71 which is hingedly carried by means of two arms 72 on the shaft 66.
The casting 71 is hollow and contains an ink reservoir 73 surrounding the shaft 70. A gear 74 meshes with a gear 75 and the two are enclosed in an elliptical space 7 6 (Fig. 3) to form a gear-pump for the ink. The passage 77 (Fig. 3) leads from the receptacle 73 to the gear-pump 7 6 and serves as the inlet opening thereto. The passage 78 is the outlet of the pump and leads to the vertical passage 79 which carries the ink up along the surface ofthe ink roller 80 which is keyed to the shaft 70, the roller intermittently making contact with the ink roller 56,
A cam 81 is keyed on the bottom of the shaft 54 (Fig. 8) and has a follower 82 on the bottom of the shaft 70. A spring 83 (Fig. 3) normally draws the casting 71 forward so that the ink roller 80 is in Contact i with the roller 56. During a large portion of the revolution of the cam 81, the follower 82 is forced back carrying the ink roller 71 away from the roller 56. The roller 80 however is continuously sup lied with ink, the thickness of the lm of ink being regulated by means of a scraper plate 84, the distance from the roller 80 being regulated by means of thumb screws' 85.
The printing` roller 63 is adapted to receive a printing mat which:j is stretched around the printing roller and secured thereto in any desired manner.
`The operation of the machine is as follows: A pile of books A are held at rest on i. the machine 12 (Fig. 1) by means of an intermittently retracted stop 86, while the beltA 14 passes at a"uniform rate beneath this 'pile of books.
As the stop 86 is withdrawn a pile of books A is carried forward by the belt 14. At this point a means is provided for starting the pile of books particularly as it .starts forward with the belt, which consists of a weighted roller 87 which' is pivotally carried by arms 88 pivotally mounted at 89 to the frame 43, andhavingrollers 90 which make contact .with cams 91 on. two ends of the shaft upon which the pulley 46 is mounted.
nThe belts 14 and 48 are geared together as has previously been stated and the cam 91 is so timed as to drop the weighted roller 87 on the pile of books A before it starts to move and let the Weightv of the roller rest' thereon until lthe pile has picked u the speed of thebelt.` As the pile of ooks moves forward it is caught between the conveyor belt 14 and the pressure belt 48,the
series of spring fngers49 supplying pressure thereto. It will also be understood that suitable spreading plates 92 underlie the conveyor belt 14 and serve to carry the vfoi-in rate, the printing rollers located on opposite sides as shown in Fig. 3, p rint the head and foot edges of the-book after which it )asses on tothe conveyor belts.
' s has previouslybcen explained, these belts are traveling at different speeds, the bolt 26 traveling faster than the belt 14, while the belt 32 travels an equal amount slower. This dierence is so timed as to turn the pile of books in a clockwise direction as shown in Fig. 2, through a quarter of a revolution; thereby presenting the third trimmed edge of the bookto the printing roller as -will now be described.
As the pile of books leaves the belts 26, 32 the front edge of the book encounters the guide 93, while the rear edge a little later encounters'the'opposite guide 94. `As the pile of books leaves the diferential belts 26,
32 it passes on tothe conveyor belt 36 and is f pressed between this and the pressure belt 951 where the rear trimmed edge of the book is printed in the same Way as that by which the head and foot edges were printed as was just described.
It will be understood that each printing arm is mounted to hinge about the4 vertical shaft 54 and that each is pressed inwardly by means of a spring 96 as shown in Fig. 2, the inward movement of the printing arm being regulated by an adjusting screw 97. removable cover 55a is passed over the printing arm 55 and encloses the inking and printing rollers. f
At 98 (Fig. 1) is provided a combingwheel which is driven from a source (not shown) and which has a series of loosely held centrifu al members 99 which rattle against the e ge of the books to jog them against the guide 94 so as to present all books of the pile uniformly to the printing roller. r/
The pressure belt 48 is suitably driven bymechanism (not shown) in detail, from the shaft 51 so that this belt, the conveyor belt and the printing mechanism are all in timed relation. Likewise the stop 86 is operated in timed relation to the conveyor belt, the mechanism for accomplishing/this however not being shown since ,its operation will` readily be'understood.
Thus, by suitably forming the printing matter, a number of books in the pile Al 40 edge.
While I have shown and describedbut a single embodiment of this invention, it is to be understood that it is capable of many modifications. Changes therefore in the construction and arrangement may be-made which do not depart from t-he spirit and scope of the invention as disclosed in the appended claims.
i I claim:
l. Mechanism for printing the edges of books comprising means for feeding the books thereto, means for printing the two opposite ,trimmed edges of the book, means for turning the book about a vertical axis,
l and means for printing the other trimmed edge. j
2. Mechanisn'i for printing the edges of books comprising means for feeding the books thereto, means for' simultaneously printing the two opposite trimmed edges of the book, means for turning the book about' opposite trimmedy edges of the book, means for revolving the book in a plane parallel to the surface on which the book rests, and means of printing the other trimmed Y 5. Mechanism for printing the edges of books comprising means for feedin the books thereto, means for gripping an conveying the books between opposed faces of two conveyors traveling at the same speed,
means for revolving the book on its underlying face while resting on a moving conveyor, and means for printing the other trimmed ed e.
books comprising a conveyor belt for carrying the books through the machine, a pressure-belt overlying the conveyor belt and traveling at the same speed for gripping C-books therebetween, the ad'acent faces of said belts being parallel an moving at the same rate and inthe same direction, means for applying pressure to one of said' conveyors to grip said book, and means adjacent said belts for'printing the edge of said books as` they are `carried along by said belts. Y l v 7. A machine for printing A,the edges of books comprising aconveyor belt for carry- .,65 ing the books through the machine, a prese for 6. A mac ine forprinting-the edges of sure-belt overlying the conveyor belt forl gripping books therebetween, the adjacent faces of said belts being parallel andl moving at the same speed, means adjacent said belts for printing the'edge of said books as 711. they are carried along by said belts, means for turning said books' after leavilig the. j
. printing mechanism, and means for printing another edge of said books.
8. A machine for printing the edges of books comprising a conveyor belt for car-v rying .the books -throu h thewmachiie,f a pressure-belt overlying the conveyor belt for gripping bookstherebetween, the adjacent faces of said belts bei-ng parallel andmoving at the same speed, means adjacent said belts for'printing the edge of said books as they are carried along by said belts, a pair of horizontally spaced belts running at different speeds for turning said book/s after leaving the printing mechanism, and means for prlnting another edge of said books. 9. A machine for printing the edgesof books comprising a conveyor belt for carrying the books through the machine,a pressure-belt -overlying the. conveyr belt 'for gripping ,books therebetween, vthe adjacent faces of said belts being parallel and moving at the same speed, means adjacent said belts for printing the edge of said books as they are carried alon by said belts, means for turning said' boo rs after leaving the printing mechanism, guides for aligning said books, and means' for printing another edge of said hooks.-
10. Mechanism for printing the edges of books comprising means for feeding the books thereto, means for printing the two opposite trimmed edges of the book, means for revolving the book by sli ping on the supportedsurface of said boo and means rintin the otherl trimmed edge, said; feeding an printing means being intimed relation. y 7
111..'Mech`anism for printing the ledges of books comprising means for feedin the,I books thereto, means for gripping an conveying the said books, between Athe. opposed"I surfaces of two belts or conveyors; traveling at the same speed, during the` printing oper- 1w ation, means for printin the two opposite ,f trimmed edges of the ook, int rmediate means for conveyingv the book tpsecond rinting position, means fore-revolving the ook on its supporting surface while resting on and moving with said intermediate conveying means, and means for printing thel other trimmed 'edgev 12. Mechanismior printing the edges of books comprising meansA for conveying the 125 books in piles through the mechanism, means overlying the first mentioned means for gripping ,the bgoks as they pass along, means for steadying aid pile of b ooks as it encounters 'the gripping means, land means for printing 130 ,anedge of said pile of books While so gripped.
overlying the first mentioned means for gripping the books as they passalong, a cam operated weighted roller adapted to be dro pcd upon said books for steadying said pile of books as it encounters the gripping means, and means for printing an edge of said pile of books While so gripped.
14. Mechanism forprintin'g the edges' of piles of books comprising means for conveying the vbooks in piles through the mechanism, a second means traveling at the same vspeed and in the same direction as the first l In testimony Whereof` I have hereunto set my hand this 3 day `9i? April, 1925. v
RAYMOND E. ACKLY.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2603147 *||Jul 12, 1946||Jul 15, 1952||Fred Meyer||Process and machine for printing upon the open edges of books|
|US2637433 *||Dec 9, 1950||May 5, 1953||Shuttleworth Charles A||Container handling conveyer|
|US2664816 *||Jul 9, 1949||Jan 5, 1954||California Packing Corp||Case marking device|
|US2689637 *||Nov 28, 1950||Sep 21, 1954||Pettibone Mulliken Corp||Rock feeder|
|US2707924 *||Aug 27, 1954||May 10, 1955||Frederick Hansen Francis||Sheeted dough turner|
|US2732927 *||Mar 23, 1955||Jan 31, 1956||Sheeted dough turner|
|US2735382 *||Dec 27, 1951||Feb 21, 1956||hansen|
|US2761545 *||Apr 19, 1952||Sep 4, 1956||Gottscho Inc Adolph||Conveying means for a marking apparatus|
|US2771176 *||Feb 25, 1955||Nov 20, 1956||United States Steel Corp||Conditioning device for bundles of coiled material|
|US2775192 *||May 21, 1953||Dec 25, 1956||Gottscho Inc Adolph||Marking devices|
|US2803189 *||Jul 8, 1954||Aug 20, 1957||Silva Joseph C||Case marker|
|US2834284 *||Nov 14, 1952||May 13, 1958||Buskirk & Company Inc Van||Article marking|
|US2931292 *||Aug 28, 1956||Apr 5, 1960||R H Hartnett Company||Marking machines|
|US3047123 *||Feb 29, 1960||Jul 31, 1962||Mckay James G||Carton rotating and conveying apparatus|
|US3182993 *||Mar 27, 1962||May 11, 1965||Ibm||Sheet handling apparatus|
|US3321062 *||Sep 21, 1965||May 23, 1967||Windmoeller & Hoelscher||Apparatus for shifting bag or sack workpieces during horizontal conveyance from longitudinal to transverse|
|US3403769 *||Nov 16, 1966||Oct 1, 1968||Fmc Corp||Apple orienting apparatus|
|US3774749 *||Aug 11, 1972||Nov 27, 1973||Itt||Conveying apparatus for oblong products|
|US4047479 *||Apr 28, 1975||Sep 13, 1977||Kiwi Coders Corporation||High speed article coding machine|
|US4085839 *||Aug 30, 1976||Apr 25, 1978||Genevieve I. Hanscom, Robert M. Magnuson & Lois J. Thomson, Trustees Of The Estate Of Roy M. Magnuson||Apparatus for conveying and turning articles|
|US4208962 *||Feb 6, 1978||Jun 24, 1980||R. W. Hartnett Company||On-end and wrap-around capsule printing apparatus|
|US5024317 *||Nov 16, 1989||Jun 18, 1991||Cmb Foodcan Plc||Method and apparatus for closing cartons|
|US5660262 *||Jan 13, 1995||Aug 26, 1997||Kliklok Corporation||High speed carton feeding/turning system|
|US5871080 *||Sep 21, 1995||Feb 16, 1999||Planet Products Corporation||Product aligning system|
|U.S. Classification||101/37, 101/352.8, 101/35, 101/366, 198/415|
|International Classification||B41F3/46, B41F3/00|