US1617342A - Rotary printing machine - Google Patents

Rotary printing machine Download PDF

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US1617342A
US1617342A US53752A US5375225A US1617342A US 1617342 A US1617342 A US 1617342A US 53752 A US53752 A US 53752A US 5375225 A US5375225 A US 5375225A US 1617342 A US1617342 A US 1617342A
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machine
frame
cylinders
printing
impression
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US53752A
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Murray John
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/08Cylinders
    • B41F13/24Cylinder-tripping devices; Cylinder-impression adjustments
    • B41F13/26Arrangement of cylinder bearings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41PINDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
    • B41P2217/00Printing machines of special types or for particular purposes
    • B41P2217/10Printing machines of special types or for particular purposes characterised by their constructional features
    • B41P2217/15Machines with cylinders only supported on one side, e.g. cantilever construction

Definitions

  • J. MURRAY ROTARY PRINTING MACHINE Filed Aug. 31, 1925' 4 sheets sheet 1 Feb; 15 ,.1927.
  • the invention has for its object to provide a rotary printing machine, more particularly for printing books, offering facilities in the matter of changing of the printing plates and the almost complete elimina- 1 "tion of the 0 erations involved in making ready, capa 1c of running at,high speed, self-contained and occupying little floor space.
  • a machine according to the invention which as a Whole is adapted to draw paper from a roll, print it upon each side, fold it, cut it and deliver it as separate signatures, the impression cylinders, the printing cylinders, the folding and cutting cylinders, and,
  • the whole or part of the inking mechanism with its rolls are supported entirely from one side of a main frame structure, with accessory elements hereinafter described, and are thus capable of Withdrawal laterally of said structure.
  • a main frame structure with accessory elements hereinafter described, and are thus capable of Withdrawal laterally of said structure.
  • a machine embodying the invention referring to one' side of a double-sided machine, there are supported at the upper part of the main, vertical, central frame structure, two pairs of impression and printing cylinders with their axes horizontal and substantially in one horizontal plane. These cylinders hereinafter referred to, may be supported to rotate upon fixed trunnions projecting laterally from the frame-structure, whether integral with or attached to said structure, or may be mounted on the outer ends of shafts supported in bearings in the main frame.
  • Paper is led from a, roll supported at one end of the machine over and between the first pair of impression and printing cylinders, to be printed upon one side. Thence it passes over an aligning or positioning device such as a jockey pulley in the bight of the band of paper to the second pair of-impression and printing cylinders to receive the corresponding impression on the opposite side. It then passes over a second like aligning or positioning device to the folding and cutting cylinders arranged below.
  • an aligning or positioning device such as a jockey pulley in the bight of the band of paper to the second pair of-impression and printing cylinders to receive the corresponding impression on the opposite side. It then passes over a second like aligning or positioning device to the folding and cutting cylinders arranged below.
  • oil offset removing devices are provided.
  • I Ink distributing devices are carried on extensions at the ends of the frame structure, the various rolls, so far as may be possible, being so carried as to be withdrawable endwise.
  • the inking rolls and their immediate details are carried on brackets pivoted to links pivoted to the frame-strucgard; to the printing surfaces which they serve.
  • brackets pivoted to links pivoted to the frame-strucgard to the printing surfaces which they serve.
  • the corresponding brackets at opposite sides of the machine are preferably formed with mutually engaging and supporting vertical faces.
  • the machine may be driven in any convenient manner.
  • the mechanism on each side may be driven through worm gearing from a vertical motor.
  • the main frame is composed of two parts 1 .ture so that they may be adjusted in reder 7 is temporarily fixed to rotate with the gear-wheel 7 (Fig. 3) rotatable on the trunnion 3, the cylinder bein slewed on a member 7 2 supported by a'ro ler bearing and retained by a cap 7
  • Impression cylinders 9 and 10 are similarly mounted on the trunnions 4, 5, being spaced slightly apart to facilitate the threading of the paper.
  • Below these cylinders and rotatably mounted on shafts 11, 12, 13, 14 and 15 which pass laterally through and are fixed to the lower part 2 of the main frame, are five folding cylinders 16, 17, 18, 19 and 20 one, 16, of which is shown more clearly in Fig. 4, being in rib and groove engagement with and bolted to a gear wheel 16 rotatable on ball bearings on the shaft 11.
  • a bracket 21 Secured to one end of the base plate of the lower part 2 of the main frame and forming an extension thereof is a bracket 21 on which is mounted the lower portion of the unwinding gear, including unwinding rollers 22 and 23, supported by which is a paper reel 24.
  • a tension pulley 28 Extending along the top of the machine between the bracket and a guide roller bracket 30, mounted on the upper part 1 of the main frame, is a guide plate 31.
  • Carried by the bracket 30 are two guide rollers 32 and 33.
  • a delivery receiver 34 At the end of the machine remote from the paper reel 24 and adjacent to the folding cylinder at that end is a delivery receiver 34.
  • the paper led from the reel 24 passes around the guide rollers 26 and 27, the ten sion pulley 28, the guide roller 29, then, by way of the guide plate 31 to the guide rollers 32 and 33. After leaving these rollers 32 and 33 it receives its first impression between the first printing cylinder 7 and the first impression c linder 9. On leaving this impression c lin er 9 it passes around an adjusting r0 ler 35 mounted on the main frame, then receives its second impression be tween the second printing and impression cylinders 8 and 10 and leaves these cylinders in a downward direction.
  • roller 43 carried by a'swinging arm 44 and driven by a train' of gearing from the first impression cylinder 9, the roller 43 being periodically raised into contact with the 'cleaning brushes and 41 and lowered into contact with.
  • the ductroller46 by means of a link 45 which engages the arm 44 and is operated by a cam 46 on the-duct roller 46.
  • brackets 47 and 48 At the ends of the upper part 1 of the central frame and forming extensions thereof are brackets 47 and 48 on each of which are mounted the ink supply mechanism for one printing cylinder and the corresponding transmission gearing.
  • an ink duct roller 49 driven through a train of epicyclic gear wheels 50 from a train of transmission gear wheels 51 which is in turn driven by a gear wheel carried by the corresponding printing cylinder 8 or 7.
  • An ink feed roller 52 mounted on a reciprocatory arm 54 picks up the ink from the duct roller 49 and delivers it to a drum 55.
  • This drum 55 is common to each of two series of distributing drums 56, 57, 58 and 59 and each of these series of drums.
  • the form inking'rollers 60 and 61 and the distributing drums 58 and 59 are mounted on frames 62 which also carry sets of adjusting mechanism.
  • One set of adjusting mechanism is shown more clearly in Figs. 5, 6 and 7.
  • One end of the frame 62 is connected to a bracket on the upper part 1 of the main frame by a link 63 and the other end of the frame 62 is supported by a link 64 which is mounted at one end on an eccentric 65 on the frame 62 and pivotally connected at the other end to the bracket 47.
  • On the bracket 47 is an eccentric 66 which is operatively connected to the link 64 by another link 67.
  • the frame 62 may be moved relatively to the printing cylinder, thereby adjusting the position of the form inking rollers 60 and 61 in relation to the surface of the printing cylinder.
  • the eccentric 65 may be moved, through gearing, by operation of a hand lever 68; movement of the eccentric 66 is effected by similar gearing by operation of a tomniy-bar engageable-with' apertures in the shaft 69.
  • the form inking rollers and 61 are in frictional contact with the distributing drum 59 which is driven from the printing cylinder through a train of gear wheels 70, 71, 72 and 73.
  • the distribut- 7 mg drum 59 in, addition'to its rotary mo:
  • the dis 7 tributing drum 59 may be adjusted to con v tact with the 'form inking rollers 60 and 61 by the angular movement of eccentrics 82,-
  • Each forminking roller, as 61, is mount ed on an ndwise movable sleeve 87 which is supported by a ballrace container 88' on the inking roller shaft'89.
  • a main frame In a rotary pr1nting.machine,'in combination, a main frame, a printing 0 linder supported on said frame, a bracket said frame, a movable frame, a l nk connection between said movable frame and said edto main frame, an eccentric on said movable.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Rotary Presses (AREA)

Description

Feb; 15 1927. v
J. MURRAY ROTARY PRINTING MACHINE Filed Aug. 31, 1925' 4 sheets sheet 1 Feb; 15 ,.1927.
4 Sheets-Sheet 2 Filed A1122. 51, 1925 m w a Feb. 15 1927. 1,617,342 J. MURRAY 7 ROTARY PRINTING MACHINE Filed Aug. 31, 1925 4 Sheets-Sheet 5 v 852 V 73 76' i E 5 L i I 5/ llllllllll l llllfil i 77 6 2 8 7 a: as n I 7.9 90 ea I 87 as 8.9 O 87 s/ g Fla] 5 i 1927. Feb 15 J. MURRAY ROTARY PRINTING MACHINE Filed Aug. 51, 1925 4 Sheets-Sheet 4 Patented Feb. 15, 1927.
UNITED STATES PATENT OFFICE.
JOHN MURRAY, OF LONDON, ENGLAND.
ROTARY PRINTING MACHINE.
Application filed August 31, 1925, Serial No. 53,752, and in Great Britain September 9, 1924.
The invention has for its object to providea rotary printing machine, more particularly for printing books, offering facilities in the matter of changing of the printing plates and the almost complete elimina- 1 "tion of the 0 erations involved in making ready, capa 1c of running at,high speed, self-contained and occupying little floor space.
In a machine according to the invention, which as a Whole is adapted to draw paper from a roll, print it upon each side, fold it, cut it and deliver it as separate signatures, the impression cylinders, the printing cylinders, the folding and cutting cylinders, and,
if desired, also the whole or part of the inking mechanism with its rolls are supported entirely from one side of a main frame structure, with accessory elements hereinafter described, and are thus capable of Withdrawal laterally of said structure. Preferably, there are two sets of cylinders, inking, un reeling, and delivering devices, one setarranged on'either side of a central main frame-structure so that the machine is adapted to print two series of signatures simultaneously.
In a machine embodying the invention, referring to one' side of a double-sided machine, there are supported at the upper part of the main, vertical, central frame structure, two pairs of impression and printing cylinders with their axes horizontal and substantially in one horizontal plane. These cylinders hereinafter referred to, may be supported to rotate upon fixed trunnions projecting laterally from the frame-structure, whether integral with or attached to said structure, or may be mounted on the outer ends of shafts supported in bearings in the main frame.
Paper is led from a, roll supported at one end of the machine over and between the first pair of impression and printing cylinders, to be printed upon one side. Thence it passes over an aligning or positioning device such as a jockey pulley in the bight of the band of paper to the second pair of-impression and printing cylinders to receive the corresponding impression on the opposite side. It then passes over a second like aligning or positioning device to the folding and cutting cylinders arranged below.
In order to prevent offsetting from the cylinders, as also the folding and cutting.
second impression cylinder against the face of which the immediately previously printed first impression lies, oil offset removing devicesare provided.
I Ink distributing devices are carried on extensions at the ends of the frame structure, the various rolls, so far as may be possible, being so carried as to be withdrawable endwise. The inking rolls and their immediate details are carried on brackets pivoted to links pivoted to the frame-strucgard; to the printing surfaces which they serve. In order to preserve the alignment of these brackets the corresponding brackets at opposite sides of the machine are preferably formed with mutually engaging and supporting vertical faces.
In the trains of inking and distributing devices the usual endwise traversing distributing rollers are employed. In order that these may be readily accessible and detachable, means for traversing them from one end (that adjacent to the frame structure) are preferably provided. 4
The machine may be driven in any convenient manner.
In the case of a double-sided machine, for example, the mechanism on each side may be driven through worm gearing from a vertical motor.
An illustrative example of a rotary printing machine embodying the invention is shown somewhat conventionally in the accompanying drawings in which Fi 1 is a side elevation, Fig. 2 an end elevation with certain parts of the machine removed, Figs.
3 and 4 fragmentary views in cross-sectional elevation to a larger scale, and Figs. 5, 6 and 7 fragmentary news in side elevation, plan and cross-sectional elevation, respectively, also to a lar er scale.
As shown in the drawings (Figs. 1 and 2) the main frame is composed of two parts 1 .ture so that they may be adjusted in reder 7 is temporarily fixed to rotate with the gear-wheel 7 (Fig. 3) rotatable on the trunnion 3, the cylinder bein slewed on a member 7 2 supported by a'ro ler bearing and retained by a cap 7 Impression cylinders 9 and 10 are similarly mounted on the trunnions 4, 5, being spaced slightly apart to facilitate the threading of the paper. Below these cylinders and rotatably mounted on shafts 11, 12, 13, 14 and 15 which pass laterally through and are fixed to the lower part 2 of the main frame, are five folding cylinders 16, 17, 18, 19 and 20 one, 16, of which is shown more clearly in Fig. 4, being in rib and groove engagement with and bolted to a gear wheel 16 rotatable on ball bearings on the shaft 11.
Secured to one end of the base plate of the lower part 2 of the main frame and forming an extension thereof is a bracket 21 on which is mounted the lower portion of the unwinding gear, including unwinding rollers 22 and 23, supported by which is a paper reel 24. At the same end of the machine and rigidly connected to the upper part 1 of the main guide rollers 26, 27 and 29 and a tension pulley 28. Extending along the top of the machine between the bracket and a guide roller bracket 30, mounted on the upper part 1 of the main frame, is a guide plate 31. Carried by the bracket 30 are two guide rollers 32 and 33. At the end of the machine remote from the paper reel 24 and adjacent to the folding cylinder at that end is a delivery receiver 34.
The paper led from the reel 24 passes around the guide rollers 26 and 27, the ten sion pulley 28, the guide roller 29, then, by way of the guide plate 31 to the guide rollers 32 and 33. After leaving these rollers 32 and 33 it receives its first impression between the first printing cylinder 7 and the first impression c linder 9. On leaving this impression c lin er 9 it passes around an adjusting r0 ler 35 mounted on the main frame, then receives its second impression be tween the second printing and impression cylinders 8 and 10 and leaves these cylinders in a downward direction. After passing around further adjusting rollers 36 and 37 it is introduced to the series of folding cylinders, being held to the periphery of the may be withdrawn from the slot in the cylinder, it is subjected to the action of rubber rings 38, 39 which bear upon the outer layer of the folded sheet and which are,
by a roller 43 carried by a'swinging arm 44 and driven by a train' of gearing from the first impression cylinder 9, the roller 43 being periodically raised into contact with the 'cleaning brushes and 41 and lowered into contact with. the ductroller46 by means of a link 45 which engages the arm 44 and is operated by a cam 46 on the-duct roller 46.
At the ends of the upper part 1 of the central frame and forming extensions thereof are brackets 47 and 48 on each of which are mounted the ink supply mechanism for one printing cylinder and the corresponding transmission gearing. At the outer end of each of the brackets 47 and 48 is mounted an ink duct roller 49 driven through a train of epicyclic gear wheels 50 from a train of transmission gear wheels 51 which is in turn driven by a gear wheel carried by the corresponding printing cylinder 8 or 7. An ink feed roller 52 mounted on a reciprocatory arm 54 picks up the ink from the duct roller 49 and delivers it to a drum 55. This drum 55 is common to each of two series of distributing drums 56, 57, 58 and 59 and each of these series of drums. delivers ink to two overhung form inking rollers 60 and 61 which are in operative contact with a printing cylinder. The form inking'rollers 60 and 61 and the distributing drums 58 and 59 are mounted on frames 62 which also carry sets of adjusting mechanism. One set of adjusting mechanism is shown more clearly in Figs. 5, 6 and 7. One end of the frame 62 is connected to a bracket on the upper part 1 of the main frame by a link 63 and the other end of the frame 62 is supported by a link 64 which is mounted at one end on an eccentric 65 on the frame 62 and pivotally connected at the other end to the bracket 47. On the bracket 47 is an eccentric 66 which is operatively connected to the link 64 by another link 67. By movement of the eccentrics 65, 66 about their axes the frame 62 may be moved relatively to the printing cylinder, thereby adjusting the position of the form inking rollers 60 and 61 in relation to the surface of the printing cylinder. The eccentric 65 may be moved, through gearing, by operation of a hand lever 68; movement of the eccentric 66 is effected by similar gearing by operation of a tomniy-bar engageable-with' apertures in the shaft 69. The form inking rollers and 61 are in frictional contact with the distributing drum 59 which is driven from the printing cylinder through a train of gear wheels 70, 71, 72 and 73. The distribut- 7 mg drum 59, in, addition'to its rotary mo:
tion, receives an endwise reciprocating motion which is der ved as follows :Attached \tothe gear wheel 72, which is in mesh with the gear wheel 73 on the distributing drum i "-59, is a gear'wheel 74 (Figs; 6 and 7) of I greater pitch diameter than the wheel 72. This wheel'74 is in mesh with a'gear wheel 7 5 on which-isformed a sleeve 76 which has "on-its periphery a camtrack 77. Pins 78' v and 79 in operative engagement withlthis eani track are secured to an extension 80 of the sliding sleeve 81 which 'forms the peri'phery of the distributing drum 59. Owin'git'o' the'difi'erence in pitch diameter '01 the wheels 72 and 74, the wheels 7 3 and 75 pins 7 mm 79, to the sleeve 81.- The dis 7 tributing drum 59 may be adjusted to con v tact with the ' form inking rollers 60 and 61 by the angular movement of eccentrics 82,-
83 on-the shaft 84 by angular movement of levers 85,, 86 and locked in the correct position by levers 85 86 acting through screws such as shown at 85 Similar adjustments are provided for the rollers 58.
Each forminking roller, as 61, is mount ed on an ndwise movable sleeve 87 which is supported by a ballrace container 88' on the inking roller shaft'89. A stud 90 screwthreaded into' the ballrace' container 88 and passing through an aperture 91 in the end face of the sleeve 87 secures the sleeve to the ballrace container.
'The mechanism of the machine 1s driven by two electric motors 94 and 95 which are .mounted.on a bracket-96 surmounting the main frame. Each motor drives the mech'anism on one side of the machine. Power is transmitted from the motor-.94 to the mech'a nism on the side of the machine which is shown in 'Fig; 1 through reduction gearing containedin a gear case 97, the gear wheel x .98 which is fixed to the shaftc99 and the gear wheel 100 which is free torotate on the shaft 101, the gear wheels 98 and 100 being in mesh with coacting wheels secured to the impression cylinders 9 and 10. The mechanism on the other side of the machine is driven by 4' the motor- 95 through similar gearing, the shaft 101 carrying a gear wheel similar to the' gear wheel .98 and driven through reduction gearinfg'fromthe motor 95. I
hat- I claim is:
In a rotary pr1nting.machine,'in combination, a main frame, a printing 0 linder supported on said frame, a bracket said frame, a movable frame, a l nk connection between said movable frame and said edto main frame, an eccentric on said movable.
frame, a link mounted on said eccentric and connected to said bracket, an eccentric on said bracket, a link connection between said T second eccentric and said link, overhung form inking rollers supported by said mov- 1 able frame and means for rotating said eccentrics to ad'ust said movable frame and therewith sai rollers towards and from said cylinder.
In testimony whereof I have signed my i nameto this specification.
JOHN
MURRAY.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1132201A1 (en) * 2000-02-15 2001-09-12 Francesco Schinco Decorating machine for ceramic elements

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1132201A1 (en) * 2000-02-15 2001-09-12 Francesco Schinco Decorating machine for ceramic elements

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