IE59789B1 - Processing paper and other webs - Google Patents
Processing paper and other websInfo
- Publication number
- IE59789B1 IE59789B1 IE273391A IE273391A IE59789B1 IE 59789 B1 IE59789 B1 IE 59789B1 IE 273391 A IE273391 A IE 273391A IE 273391 A IE273391 A IE 273391A IE 59789 B1 IE59789 B1 IE 59789B1
- Authority
- IE
- Ireland
- Prior art keywords
- printing
- cartridges
- cylinders
- web
- cylinder
- Prior art date
Links
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H45/00—Folding thin material
- B65H45/12—Folding articles or webs with application of pressure to define or form crease lines
- B65H45/28—Folding in combination with cutting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F13/00—Common details of rotary presses or machines
- B41F13/02—Conveying or guiding webs through presses or machines
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H45/00—Folding thin material
- B65H45/12—Folding articles or webs with application of pressure to define or form crease lines
- B65H45/14—Buckling folders
- B65H45/142—Pocket-type folders
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H45/00—Folding thin material
- B65H45/12—Folding articles or webs with application of pressure to define or form crease lines
- B65H45/18—Oscillating or reciprocating blade folders
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Rotary Presses (AREA)
- Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
Description
The present invention relates to web processing systems „ which may perform operations such as forming an image on a web (e.g. of paper) by printing, copying or other marking process, (hereinafter generally referred to as printing) and/or handling arrangements such as folding or format adjustment. The present invention is particularly, but not exclusively, concerned with processing systems in which the paper or other material orginates as a continuous web on a roll.
It is very well known ts pass paper from a roll through a printing machine to form a series of images on it and then rewind, sheet or fold it into various formats. However, there are fundamental problems which provide a serious limitation to the efficiency of such machines. There is the problem of down-time. Once the printing machine has been set up, and the paper put -in motion, printing can occur very rapidly. However, with the known machines long delays can occur when any change is made . to the method of delivery or to what is being printed. "or example, if a different image is to be printed, or if the repeat length of the image is to be changed, or if a different colour is to be used, or the folded format is to be changed, then the print run has to be stopped. The design ‘of the known printing machines is such that it is extremely difficult to make such changes, and hence it is a? common for the time such machines are not working (the down-time) to be much longer than the effective working time.
A further problem of existing arrangements is that printing machines are designed for a specific printing application, the machine being available as a single entity. What this means, in practice, is that if the owner of the machine wants to carry out more complex operations than are currently possible on his machine, he must undertake quite major engineering or buy a whole new machine.
The present invention is therefore concerned with overcoming, or at least ameliorating, these problems to design a web processing system in which many changes can be made whilst the system is in operation (can be made on the fly ) and which may also have the advantage of being modular so that the system may be expanded in capability if required.
The web processing system with which the present invention is concerned may be divided into three parts. Firstly, there is the part of the system which takes the web from a roll or reel and feeds it to the rest of the system. Secondly, there is the part which forms an image on the web, and thirdly there is a handling arrangement for the printed web. The present invention is concerned with the second part of such a system.
The invention is concerned with the imaging arrangement, particularly, but not exclusively, concerned with a web fed offset press. Such presses ryni cal 1 y comprise, for each colour to be printed, and each repeat length: a pair of blanket cylinders between which the web passes (blanket-to-blanket formation); a pair of plate cylinders in contact with a corresponding blanket cylinder, and on which the image to be printed is mounted; and an inking and dampening system for each plate cylinder. Such a system is known as a perfecting press, as it prints on both sides of the web. It is also known to provide an impression cylinder, and a single blanket cylinder, plate cylinder, and inking and dampening system, if only one side of the web is to be printed.
The present invention proposes a web-fed printing apparatus comprising a plurality of cartridges in an array for printing a web feedable through each cartridge of the array, each cartridge having means for transferring printing medium from a unit for containing such printing medium to the web, the means including at least one printing cylinder whichis adapted tc contact the web the at least one printing cylinder cf one of the oar triages having £ different circumference frcm that of the at least one printing cv Under of et least one c ther cf the cartridg es. such that in use, the different sited cylinders provide printing cf respectively different print repeat lengths, and the web is printed by at least some of the cartridge with the different sited cylinders being simultaneously present in the apparatus during that printing. -5The cartridges may form a web-fed offset printing press, in which case each cartridge may have a pair of blanker cylinders, and a corresponding pair of plate cylinders. The common unit may then be an inking and dampening unit displaceable relative to the cartridges to supply -6selectively the plate cylinders of ar least some of those cartridges, or alternatively the cartridges themselves may be movable. Thus, if becomes possible to have a printing sequence that can be varied in detail in which the following features can be carried out: the inking and dampening unit is placed in an operative position for a first cartridge and a print run is carried out for that cartridge; then the blanket cylinders of the first cartridge are moved away from the web; the blanket cylinders of a second cartridge (which has different characteristics such as the nature of the image, the image pitch cr colour) are moved into contact with the web when the inking and dampen-ing unit has moved to that cartridge. A new printing run can thus be started at the second cartridge with very little time delay. It then becomes possible to change, e.g., the image cn a plate cylinder oi the first cartridge, whilst the printing □actins is running.
The apparatus may include a plurality of inking and dampening units for supplying respective different colours simultaneously to a plurality of selected cartridges (with, in general, at least an equal plurality of cartridges not then being supplied). There may be a plurality of arrays or stacks with driers interposed as required, or a system in which the cartridges can be exchanged for others stored elsewhere.
The printing cylinder may be a blanket cylinder of an -7offset press, there then being a plate cylinder between the unit for containing the printing medium and the blanket cylinder. For an offset perfecting press there will then be a blanket cylinder, and a corresponding plate cylinder on each side of the web. For other offset presses there is one blanket cylinder, with an impression cylinder on the other side of the w®b. For a gravure press, the printing cylinder is etched, and the printing medium is transferred from the unit directly to the printing cylinder. Similarly in a flexographic or letter press, printing medium is transferred directly to the cylinder, which in this case has a raised surface carrying the printing medium. For gravure, flexographic, and letter presses there is again an impression cylinder on the other side cf the web ro the printing cylinder.
Embodiments cf the invention will now be described in detail, by way of example, with reference to the accompanying drawings, in which: Fig. 1 shows a general view of a paper handling system; Fig. 2 shows a first embodiment of a web-fed offset perfecting press; Fig. 3 shows a plan view of the drive system for the press of Fig, 1; Fig. 4 shows a side view of the drive system for the press of Fig. 1; Fig. 5 shows a second embodiment of a web-fed offset perfecting press embodying the present invention; Figs. 6 and 7 show an arrangement of a web-fed offset perfecting press not embodying the present invention, and shown for the purpose of information only, Fig. ό being a side view and Fig. 7 being a plan view; and Fig. 8 shows a detail of the cylinder movement system of the press of Figs. 2 or 5, or δ and 7.
Figs. 9 and 10 each show axial and radial views of a cylinder with adjustable diameter. Ίθ There will also be described other features of printing apparatus. These features are described only to help understanding of the present invention, and are not intended to be embodiments of the invention.
Referring first to Fig. 1, a web (in this example, 15 paper) handling system involves three parts. A first part, generally indicated at 1, takes paper from one or more paper roils in the form of a web 2 and transports it to a printing unit 3 and an optional drying unit 4. As illustrated in Fig. 1, a right -angled turn in the paper web 2 is achieved by passing the paper round an angled bar 5. After passing through the printing unit 3, and the drying unat 4, the paper web 2 is again turned for convenience through 90° via bar 6, and passed to a cutting and folding arrangement generally indicated at 7. Sheets of paper printed, cut and folded as appropriate then pass for e.g. stacking in the direction indicated by the arrow 8. Of course, any arrangement of paper web input unit 1, printing station 3, drying station 4, and cutting and folding arrangement 7 may be provided, the actual similar constraints. -9configuration depending on space and As explained with reference to Fig. 1, the paper web then passes to a printing unit 3. Fig. 2 illustrates an embodiment of such a unit 3, being a web-fed offset perfecting press according to the present invention. It is to be noted that whereas this embodiment as illustrated shows all printing cylinders to be of the same sire, this is only a schematic representation of the mechanical arrangement, and the present invention provides at least one cartridge with cylinders different from those of other cartridges. The press has three cartridges 40,41,42, with each cartridge having a pair of blanket cylinders 43,44 in blanket-to-blanket configuration, and a pair of plate cylinders 45,46 the outer surface of each of which is formed by a printing plate in contact with a corresponding one of the blanket cylinders 43,44: i.e. each cartridce contains a printing couple. Normally the plate and blanket cylinders have the same diameter, but it is also known to have plate cylinders of half the circumference of the corresponding blanket cylinder. As illustrated, the cartridges 40,41,42 are Immediately adjoining each other, as this gives the array of cartridges 40,41,42 a small sire. If would be possible, however, for the cartridges 3Ω 40,41,42 to be in, a spaced-apart array. The web 2 passes round a roller 47 and between the pair of blanket cylinders 43,44 os each cartridge 40,41,42. It is preferable if the cartridges 40,41, and 42 are stacked substantially vertically but substantially horizontal arrangements are -10also possible including arrangements in which the cartridges are movable transverse to the web. The image to be printed on the web 2 is carried on the plate cylinders 45 and 46, and transferred via the blanket cylinders (hence offset printing) to the web. This, in itself, is known.
As shown in Fig. 2, a unit containing printing medium, e.g. an inking and dampening train 48,49 is provided on each side of the web. The inking and dampening train 48,49 are capable of moving vertically separately or together and each may contain throw-off mechanisms to facilitate that vertical movement (compare trains 48 and 49), When printing is no occur, the inking and dampening trains 48,49 are moved in the vertical direction to register with one of the cartridges 40,41,42. The inking and dampening rollers 50 are brought into contact with the plate cylinders 45,46 by means of mechanisms which ensure correct operating geometries and pressures. As illustrated, the inking and dampening trains 48,49 are provided on each side oi the web 11, but are common to all three cartridges 40,41,42. If the cartridge 41 is to print, the trains 48,49 are operated so that the inking and dampening rollers 50, move into contact with the two plate cylinders 45,46 of that cartridge 41. A printing run then occurs. At the end of that printing run, the inking and dampening trains 48,49 are moved to their thrown-off configurations (as shown for 48) and the trains 48,49 are moved vertically until they are adjacent one of the other two cartridges -1140,42. Sy moving the inking and dampening rollers 50 into contact with the plate cylinders 45,46 of another cartridge 40 or 42, a new print sequence can operate.
Xt is also possible for the cartridges, to move vertically, with the trains remaining stationary, hut this is mechanically more difficult to achieve. Note also that this arrangement permits 19 in machine storage of the cartridges, which is more efficient than the known arrangements .
A suitable drive system for the press of Fig. 2 will now be described with reference to Figs. 3 and 4. As shown in the plan view of Fig. 3, the inking and dampening trains 48,49 are mounted on a support frame 51 movable relative to the main frame 52 of the press which supports the cylinders 43,44.45,46 via end supports 52a. The mechanism for horizontal movement of the inking and dampening trams 48,49 is not shown, but Fig. 4 shows that a stop 53 may be provided on the support frame 51 to limit this horizontal movement.
The vertical movement of the support frame 51, and hence of the inking and dampening trains 48,49 is controlled by a hoist motor 54 mounted on the support frame 51. That motor 54 drives a shaft 55 extending across the support frame 51 and connected via bevel gears 56,57 to two shafts 58,59. Shaft 58 drives a pinion 60 engaging a toothed rack 61 on the main frame 52. Similarly, shaft 59 drives two pinions 62,63 also attached to the main frame 52 -12which engage corresponding toothed racks 64,65 on the opposite side of the main frame 52. Thus rotation of the motor 54 drives shafts 55,58,59 causing the pinions 60,62,63 to move either up or down on their corresponding racks 61,64,65, hence moving the support frame 51 relative to the main frame 52. In this arrangement, a three-point mounting is used, hut it would also he possible to provide a four or more point mounting by providing pinions additional on the shafts 58,59 with corresponding racks on the main frame 52. Accurate vertical positioning of the support frame may be achieved either by accurate control of the motor 54 or by providing a stop 56 (see Fig. 2) cn the main frame 52. The stop 66 may be spring-loaded so that it moves cut from the main frame 52 when the support frame 51 moves past it, and the support frame 51 then lowered onto the stop 65, Clearly the stop 55 has to be depressed to permit downward movement of the support frame 51, e.g. to operate cartridge 40 in rig. 2.
The drive for the cylinders 43,44,45,46 will now be described. In fact, the drive train for cylinders 43,45 and the train for cylinders 44,46 are the same and the following refers only to the cylinders 43,45.
A shaft 67 extends up the main frame 52 and movably on it, but engaged for rotation with it is a gear 68 which meshes with a corresponding gear 69 connected to a shaft 70 which extends to a worm 71 which mates to a worm wheal 72.
A shaft 73 is secured to the worm wheel 72 and is supported -13oxi the support frame 51 by a support 74. At the end of shaft 73 remote from the cylinders 43,45 is an air cylinder 75 which is -capable of moving the shaft 73 axially. At the other end of the shaft 73 is a clutch plate. 76 which engages a corresponding clutch plate 77 on a stub shaft 78 ext ending from the plate cylinder 45, The clutch plates 76,77 and their attached shafts 73,78 pass through an aperture 79 in the main frame 52. At the end of the plate cylinder 45 are gears 80 which mesh with corresponding gears 81 on the blanket cylinder 43.
Thus, when the air cylinder 75 moves the shaft 73 so that the clutch plates 76,77 are in engagement, drive from the shaft 67 is transmitted via gears 68,69, shaft 70. worm 71, worm gear 72, shaft 73, clutch plates 76,77, and the stub shaft 78 to the plate cylinder, and hence via gears 80,81 to the blanket cylinder.
When the air cylinder 75 moves the shaft 73 to disengage the clutch plates 76,77 no drive is transmitted. Furthermore, this movement of the shaft 73 is sufficient to move the clutch plate 76 clear of the aperture 79, permitting the whole assembly on the support frame to he moved relative to the main frame 52 to another cartridge. This arrangement has the advantage that cylinders of cartridges not in use cannot have any drive thereto, and therefore can be handled safely, e.g, for replacement of the printing plates of those cylinders. Since the cylinder drive mechanism moves with the inking and dampening trains, -14it is impossible accidentally to drive cylinders which are not to print at any particular time.
The clutch formed by clutch plates 76,77 has another function. The clutch plates 76,77 form a single.position clutch preset to synchronise the position of the corresponding plate cylinder 45 to the drive. Thus, irrespective of the initial position of the plate cylinder 45, its rotation will be synchronised with the rotation of the shaft 67.
Sosnetimes, however, it is desired to vary the synchronisation of the shaft 67 and the plate cylinder 45, to advance or retard the printing image relative tc the main drive. To do this, the worm 71 is moved along shaft by a linear actuator 52, which normally holds the worm fixed on the shaft 70. This rotates the worm wheel 72 which, via shaft 7Ξ , and clutch plates 75," rotates the plate cylinder 45 relative to the position of the drive shaft 67. The .movement of the worm 71 may also be achieved using a motor or a hydraulic ram. Movement of the ether plate cylinder 46 relative to the shaft 67 may be achieved in the same way either simultaneously with or separately from movement of the plate cylinder 45.
The drive to the inking and dampening cylinders 50 of the inking and dampening trains 48,49 will now be described with reference to Fig. 4. Although Fig. 4 is an equivalent view to that of Fig. 2, the cartridges 40,41,42 have been omitted for the sake of clarity, as has the drive from -15hoist motor 54 to move the support frame 51 relative to the main frame 52.
As can be seen from Fig. 4, gears 83 extend from the shaft 70 from gear 69 to the worm 71. These gears .83 engage on an epicyclic gearing 84 on a further shaft 85. 5 Each end of the shaft 85 carries gears 86 which engage gears 87 which connect to the drive system within the inking and dampening units in a conventional way. Thus the shaft 70 is connected to shaft 85 and the drive from shaft which drives the cylinders 43,44,45,46 as discussed with reference to Fig. 5 also drives the inking and dampening rollers 50.
However, this synchronisation depends on the diameter of the plate cylinders 45,46, and when, as in the present invention, the press has two different sires of cylinders, the drive system discussed above can oniv be in synchronisation for one site, and printing would be out of synchronisation, when the inking and dampening units 48,49 were moved to a cartridge having cylinders of a different 25 sire. The arrangement of Fig. 6 overcomes this by providing an auxiliary drive motor 88 connected via the epicyclic gearing 84 to the shaft 85. The speed of rotation of that auxiliary motor 88 is sensed, and the result fed to a comparator 89 which compares that speed with the speed of rotation of rollers 90 between which the paper web passes. These rollers 90 may also be associated with epicyclic gearing. If it is found that the drive is not synchronised, then the motor 88 is speeded up or slowed down until synchronisation is achieved. Thus the drive to -16the motor 88 modifies the drive transmitted hy the gearing 83 to the shaft 85.
Fig. 4 illustrates a further feature of the system, namely that the shaft 67 which drives the plate and blanket cylinder is driven from a shaft 91 which extends bevond the printing station. Thus, additional printing stations may be connected to the shaft or, as illustrated in Fig. 6, may be connected to the perforating tool of a pre-folder 92, or IQ the perforator and cutter of a cutting station. These will be described in detail later, but as can be seen the main shaft 91 has gears 93 driving a shaft 94 cf the pre-folder 92 which rotates a perforating tool 95. Again, epioyciic gearing 96 may be provided, linked to the comparator 89.
As illustrated in Fig. 2, one pair of inking and dampening trams 48.49 is provided in common for three cartridges. Zn general, therefore, the three cartridges may have different images cn their plate cylinders, with at least one cartridge having a different site ci cylinder, so that by chancing frcm one cartridge to another, the print length may be varied. Other arrangements are also possible, however. Fig. 5 illustrates an example of this having four cartridges 100, 101,102,103, each of which is similar to the cartridges 40,41,42 of the arrangement shown in Fig. 2. The web 2 of paper passes up the middle of the cartridges 100,101, 102,103. Four inking and dampening trains are provided, an upper pair 104,105 serving the upper two cartridges 100,101 and a lower pair -17106,107 serving the lower two cartridges 102,103, In this way, for example, it is possible to print two different colours in like size print cylinders, and yet still maintain the possibility of change of image and/or repeat length. As shown in Fig. 5, the cylinders of the cartridges are of different sizes, e.g. with the cylinders of cartridges 100,102 being smaller than the cylinders of cartridges 101,103. The press shown, in Fig. 5, apart from having four cartridges, as discussed above, may be generally similar to the press of Fig. 2, and have a drive similar to that described with reference to Figs. 3 and 4. Therefore, further detailed description of the arrangement of Fig. 5 will be omitted.
One feature of this system is that by adding additional cartridges, and possibly additional inking and dampening trains 48,49, the number of different printing operations can be increased.
Tine embodiment described above reference to Figs. 2 to 5 have the inking and dampening units moving vertically relative to a vertically stacked array of cartridges. It is also possible to have a horizontal arrangement in which cartridges ars in a fixed horizontal array and the inking and dampening units are movable relative to the cartridges on which printing is to commence. One or two inking and dampening units may be used. The drive to the plate cylinders and the inking and dampening units is as described in the vertical unit shown in Fig. 3. The difference lies in the fact that a horizontal power shaft running parallel to the main power shaft may be used to drive the plate cylinders. The drive from the main power shaft may he provided hy a vertical shaft connecting the power shaft to the horizontal shaft through two pairs of bevel gears.
As described above, the array of cartridges is fixed and the inking and dampening units are movable. Since the present invention depends on relative movement, it is also possible to have the inking dampening units fixed and move the cartridges of the array. The cartridges may be moved by many ways, such as rollers, guide rails, or pneumatic jacks, and the drive to the plate cylinders cf the cartridges may be achieved by single toothed clutches as described with reference to Fig. 4. The advantage cf an arrangement using movable cartridges is that the inking and dampening units are fixed and hence the drive to the system may be fixed. However, it is currently considered tt be more difficult to move the cartridges than to move the inking and dampening units.
An arrangement not encompassed by the present invention and given for information only involving fixed inking and dampening units and movable cartridges is shown in Figs. 6 and 7. This arrangement has four cartridges 111, 112, 113, 114 such as to form a carousel 115. As illustrated in Fig. 6, each cartridge has a pair of plate cylinders 116 and a pair of blanket cylinders 117 in a manner generally similar to the plate and blanket cylinders of the cartridges 40, 41, 42 -19of the embodiment of Fig. 2. It can he seen from Fig. 6 that the plate and blanket cylinders 115,117 of the cartridges 111,113 are smaller than the blanket cylinders 116,117 of the cartridges 112,114. This enables the cartridges 111,113, and the cartridges 112,114 to give different point repeat lengths.
A web 2 of paper enters the printing machine via rollers 118,119 to move along a horizontal path through two 114,112 of the four cartridges 111,112,113,114 of the carousel 115. The carousel is rotatably supported on a frame 120 and a second frame 121 supports one or two inking and dampening units 122 (one inking and dampening unit is shown more clearly in Fig. 7). Where one inking and dampening unit is provided it is preferably on the side of the carousel 115 into which the web is fed. Where two inking and dampening units are provided they are normally on opposite sides of the carousel 115 to permit the cartridges 111,113 or the cartridges 112,114 to be driven.
The printing machine shown in Figs. 6 and 7 may operate in one of several ways. For example, it is possible to carry out a print run using only cartridge 114, and during that print run, cartridge 112 may be prepared for a different print run. When the print run through cartridge 114 is completed, the blanket cylinders 117 of cartridge 114, may be withdrawn from the web 2, and the drive to that cartridge removed and then the blanket cylinders 117 of cartridge 112 moved into contact with the -20web and a drive applied to cartridge 112. A print run may then be carried out using cartridge 112 and cartridge 114 prepared. If cartridges 112 and 114 have the same printing repeat length or printing diameter, it is possible to carry out two colour operation with cartridges 112 and 114 working in tandem.
To change printing to cartridges 111,113, a motor 123 drives the carousel 115 and turns it on its frame 120, through 90° so that the cartridges 111,113 are aligned with the web 2. Accurate positioning of the carousel may be achieved by steps (net shown). This rotation cf the carousel 115 means that the web 2 must be broken in erdar tc change from cne parr cf cartridges tc the ether, and hence this arrangement is less advantageous than the embodiment of the present invention shown in Fig. 2, As shown by arrow 124, the carousel 115 may be rotated clockwise or anticlockwise, as desired.
The drive arrangement for the arrangement cf Figs. 5 and 7 will new he described. Referring particularly to Fig. 7, a shaft 125 (which may he connected tc a drive system for an entire printing system as discussed with referr.ee tc Fig. 4) droves vta gears 125 a shaft 127, and hence via gears 12S to a drive arrangement 129 for the inking and dampening unit 122. The drive arrangement 129 may be similar to that described with reference to Fig. 4, i.e. the drive may pass via eprcyclic gearing 120 which may be acted on by an auxiliary motor 131 enabling the synchronisation of the drive. -21The shaft 127 also has a further gear 132 which connects to a worm 133 acting on a worm wheel 134. The worm wheel turns a shaft 135, at one end of which is a linear actuator 136 and at the other end of which is a clutch 137. The clutch 137 connects fo a shaft 138 which drives © plate cylinder 116 of one of the cartridges 111,112,113,114. Thus the drive to the cartridge of this embodiment is generally similar to that described with reference to Fig. 3, and its operation will therefore be immediately apparent.
As shown schematically on tha right hand sida of Fig. 6, the shaft 127 may also extend to the opposite edge of ths carousel 115, to drive another inking and dampening unit (not shown).
A further development of the arrangement shown in Fig. 2 (or Figs. 5 or 6 and 7) is concerned with the mounting of the cylinders within the cartridges 40,41,42 (100,101, 102,103 or 111,112,113,114). Clearly, if the cylinders were mounted in a conventional manner each time a cartridge is required fo ba chanced, the printing positions would require precise and lengthy re-setting. Therefore, in a system embodying the present invention there may be •provided an arrangement for moving th® blanker cylinders easily into and out of their precis® contact positions.
When they are in contact, printing can occur. When they are moved out of contact they can then not hamper continuous printing, e.g. by a different cartridge. -22Furthermore, a cartridge may be removed from a press and replaced e.g. by a cartridge having cylinders of different sis©, and brought into precise running setting quickly and easily. In this way, many changes may be made to the machine with minimum downtime.
One embodiment of the system for moving the blanket cylinders 43,44 into and out of contact with the web and their adjacent cylinders is shown in Fig. 8. The solid lines represent the position of the cylinders when they are printing, the dotted lines when they are not. One blanket cylinder 44 is pressed into contact with its associated plate cylinder 46, with the gears 79,80 in Fig. 3 engaged, and also bears against the other blanket cylinder 43 (the web being then nipped between the blanket cylinders 43 and 44 to ensure good contact for printing). The blanket cylinder 43 then bears against its plate cylinder 45. Normally, a slight freedom is provided in the counting of the blanket cylinders 43,44, so that when blanket cylinder 44 is pressed into contact with its adjacent cylinders, both cylinders will automatically position themselves into their precise printing positions by the reactions cf the contact pressures to their associated plate cylinders and their co-acting blanket cylinder.
To engage the blanket cylinders 43,44 one of them (cylinder 44 in Fig. 8) is movable so that its axis moves between positions S and A. This may be achieved, e.g. toy mounting the end so the support on which the cylinder rests -21in a slot, with one end of the slot corresponding to cylinder axis in position S and the other formed in such a way as to allow the cylinder axis to have freedom from ths slot sides when in position. A. The cylinder axis is pressed into position B by a loaded plunger 140 when printing is not taking place, so that blanket cylinder 44 is in the position shown in dotted lines, and. is also out of contact with its corresponding plate cylinder 46 and the other blanket cylinder 43.
The other blanket cylinder 43 is carried on a pivoted support 141 which allows the cylinder axis to move along a restricted arc within an oversize hole (not shown). The boundary of this hole does not influence the axis position when the blanket cylinder 43 is in contact with plate cylinder 45 but does restrict the amount of movement away from that plate cylinder. This permits a gap to open between blanket cylinder 43 and plate cylinder 45 as blanket cylinder 44 moves to position S and also a gap between blanket cylinder 43 and 44 by cylinder 43 being able to follow cylinder 44 but not far enough to maintain contact with it. A similar effect can also be achieved by mounting the support of the blanket cylinder 43 in a slot arranged to allow contact with plate cylinder 45 but restrict movement away from it. If nothing holds .the cylinder 43 in contact with plate cylinder 45 it moves away on its pivoted support 141 under a separating force which may be provided by gravity. xt is required that the -22separating force should not exceed a threshold value. If the gravitational (or other) force on the roll 43 exceeds this value, the separating force is reduced hy means of a spring 142 or ofher biasing means such as an air cylinder acting on the pivoted support 141.
As shown in Fig. 8, the blanket cylinder 44 is also mounted on a bracket 143 which is connected to a lever 144 pivoting at point 145. When lever 144 is moved, e.g. by a pneumatic system 146, to the position shown in solid lines, a force is applied to blanket cylinder 44 which moves its axis against the pressure of plunger 140 away from zcsizion 3 towards position A (i.e. the printing position:. The blanket cylinder 44 abuts its plate cylinder 46, and also contacts the other blanket cylinder 43, moving it to contact the other plate cylinder 45. The precise y determtned by the reactions of the blanket cylinders to their adjacent cylinders and the controlled forces coving that, into position (and no longer by the influence of their mounting slots or holes).
Thus, by providing means for moving one of the cylinders into and out of a printing position, and means for the other cylinder to follow over a restricted distance controlled by force reactions, at the on position and slot or hole limits at the off position, printing may be disengaged and re-engaged quickly and simply, even after a different cartridge has been installed in the press. That -23is to say, the system provides fore© loading and selfsetting. Ideally the cylinder should nm on a continuous surface, 'and this is best achieved by cylinder bearers (to be discussed later).
The printing machines discussed with reference to Figs. 2 to 7 thus generally permit printing to occur continously, but also permit changes of cartridges to be made with quick and easy establishment of the precise settings required. This is very important in minimising down-tim®. The arrangement shown in Fig. 2 is particularly applicable to single colour (including black) printing. It is also applicable to colour printing although then difficulties may occur in having common inking and dampening trains, and a large number of cartridges and inking and dampening trains may become necessary.
Figs. 9 and 10 illustrate a design of cylinder which is particularly useful in the present invention. Each cylinder has a core 150 of a given size to which rim units of differing thicknesses may be fitted, as desired. Fig. 11 shows a cylinder with a relatively thick rim unit 151 and Fig. 12 shows © cylinder with a relatively thin rim unit 152. By .interchanging the ria units the effective di sms ter of the cylinder can be changed, without removing the core 150 from the press. The rim units 151,152 are anti-corrosive (acid gum in the damping fluid may otherwise cause corrosion) and removal- of the rim units also allows -2410 the care 150 from the press. The rim units 151,152 are anti-corrosive (acid gum in the damping fluid may otherwise cause corrosion) and removal of the rim units also allows easy maintenance.
As shown in Figs. 9 and 10, the rim unit 151,152 supports a printing plate 153, connected to it by clips 154,155 which enable the printing plate 153 to be stretched around the cylinder. Figs. 11 and 12 also show the end rings 156 and clamps 157 at the end. of the cylinder for holding the rim unit 151,152 onto the core 150. The-rings 156 act as bearers to ensure smooth rotation of the cylinders, as has been mentioned previously. Note that the rings 155 are slightly thicker than the nr. units 151,152, so that their radially outer surface corresponds exactly with the cuter surface of the printing plate 152.
This application has been divided out of TK Patent Application No. 3711232 (published under No. 2190320) end describes matter also described in that application. Furthermore, UK Patent Application 90C79S2.2 (published under No. 2229125) and 9008384.1 (published under No. 2229141) were divided out of 3711282 and also describe matter described in this application. Attention is therefore drawn to applications 8711232, 9007982.3 and 9008384.1
Claims (8)
1. A web-fed printing apparatus comprising a plurality of cartridges in an array for printing a web feedable through each cartridge of the array, each cartridge having means for transferring printing medium from a unit for containing such printing medium to the web, the means including at least one printing cylinder which is adapted to contact the web the at least one printing cylinder of one of the cartridges having a different circumference from that of the at least one printing cylinder of at least one other of the cartridges, such that in use, the different sized cylinders provide printing of respectively different print repeat lengths, and the web is printed by at least some of the cartridges with the different sized cylinders being simultaneously present in the apparatus during that printing.
2. A printing apparatus according to claim 1, wherein each cartridge has two blanket cylinders forming the printing cylinders and two plate cylinders, and there are at least two of the units for containing printing medium, at least cne unit on one side of the array to interact with the plate cylinders, on that side of the array, and at least one unit on an opposite side of the array to interact with the plate cylinders on that opposite side of the array.
3. A printing apparatus according to claim 2, wherein each cartridge has means for controlling movement of the printing cylinder! s) between a printing position and a - 26 withdrawn position relative to the web.
4. A printing apparatus according to any one of claims 1 to 3 wherein each cartridge is detachable from adjacent 5. Cartridges in the array.
5. A printing apparatus according to any one of claims 1 to 4 wherein the cartridges are fixed and the or each unit is movable so as to permit the unit to interact successively with at least two of the cartridges.
6. A printing apparatus according to any one of claims 1 • to 4 wherein the or each unit is fixed, and the cartridges are movable so as to permit the unit to interact successively with at least two of the cartridges.
7. A printing apparatus according to claim 6, wherein the 15 cartridges are movable in the same direction as the direction of movement of the or each web. 3. A printing apparatus according to claim c, wherein the 2Q 9. A printing apparatus according to any one of the preceding claims, wherein the or each unit includes an inking source.
8. 10. A printing apparatus according to claim 4, wherein the or each unit is an inking and dampening unit.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB868611722A GB8611722D0 (en) | 1986-05-14 | 1986-05-14 | Processing paper & other webs |
IE124487A IE59792B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
Publications (1)
Publication Number | Publication Date |
---|---|
IE59789B1 true IE59789B1 (en) | 1994-04-06 |
Family
ID=26290766
Family Applications (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
IE273491A IE59819B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
IE273391A IE59789B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
IE273591A IE59820B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
IE273491A IE59819B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
IE273591A IE59820B1 (en) | 1986-05-14 | 1987-05-13 | Processing paper and other webs |
Country Status (1)
Country | Link |
---|---|
IE (3) | IE59819B1 (en) |
-
1987
- 1987-05-13 IE IE273491A patent/IE59819B1/en unknown
- 1987-05-13 IE IE273391A patent/IE59789B1/en unknown
- 1987-05-13 IE IE273591A patent/IE59820B1/en unknown
Also Published As
Publication number | Publication date |
---|---|
IE59820B1 (en) | 1994-04-06 |
IE59819B1 (en) | 1994-04-06 |
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