EP0084698A1 - Apparatus for and method of varying the position of an operation performed on an elongate moving element - Google Patents
Apparatus for and method of varying the position of an operation performed on an elongate moving element Download PDFInfo
- Publication number
- EP0084698A1 EP0084698A1 EP82301494A EP82301494A EP0084698A1 EP 0084698 A1 EP0084698 A1 EP 0084698A1 EP 82301494 A EP82301494 A EP 82301494A EP 82301494 A EP82301494 A EP 82301494A EP 0084698 A1 EP0084698 A1 EP 0084698A1
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- EP
- European Patent Office
- Prior art keywords
- take
- web
- feed
- sensor
- drive
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- 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.)
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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
- B41F13/025—Registering devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41P—INDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
- B41P2213/00—Arrangements for actuating or driving printing presses; Auxiliary devices or processes
- B41P2213/10—Constitutive elements of driving devices
- B41P2213/20—Gearings
- B41P2213/208—Harmonic drive
Definitions
- the invention relates to apparatus for and method of varying the position of an operation performed on a moving element such as a web of material.
- the paper web In the field of printing, and particularly in the field of printing matter on a paper web for use in a computer print-out machine, printed matter often has to be appl ied to the web with extreme accuracy.
- the paper web When printing a pre-processed paper web for use in computer print-out machines, the paper web generally comprises a length of paper which has numerous evenly spaced transverse perforations to define interconnected sheets and which enables the web to be arranged as a concertina-like stack.
- a computer user requires certain basic printed matter to appear on every sheet of the stack it is essential to ensure that the printed matter is placed in a precise position on each sheet so that the printed matter al igns accurately with the print applied by the computer print-out machine.
- An object of the present invention is to provide an improved apparatus which reduces the foregoing disadvantages.
- initial tension wil be appl ied to the element particularly where the element takes the form of a pre-printed paper web. Where such a web has transverse perforations, the initial tension is set below that which will tear the perforations.
- This is particularly advantageous as there is no need to incorporate strain gauges or mechanical tension sensing means to prevent excessive tension being applied when correcting misregistration.
- Drive to the take-up means is preferably transmitted through a slipping-type clutch which enables a predetermined working tension to be applied to the element.
- the working tension will remain substantially constant as the feed rate of the feed means is increased or decreased by the same amount.
- the feed means includes a feed roller for feeding an element in the form of an elongate web
- the take-up means includes a take-up roller
- the means for performing an operation on the element includes printing cylinders between which the web passes with sliding contact to enable a printing operation to be performed on it, the feed and take-up rollers being arranged to increase or decrease the rate at which the web passes between the printing cylinders to vary the position of the web relative to the printing cylinders and thereby varying the position at which print is applied to the web.
- Means for arranging the web in a predetermined manner may be arranged to receive the element such as the web from the take-up means and may be driven by the said drive means so that it operates at the same rate as the take-up means. In that manner, a web issuing from the take-up means can, say, be folded and stacked at a rate consistent with the feed and take-up rate of the web.
- the feed means and take-up means are driven by drive means in the form of a motor common to both and the means for performing the operation on the element is driven by a further motor, said means operable in response to said sensor means being arranged to control the relative speeds of the motors.
- a method cf varying the position of an operation performed on an elongate moving element comprising feeding the element at a desired rate, performing the operation on the fed element, taking up the element on which the operation has been performed, sensing the relative positions of the element and the operation performed thereon, and adjusting the rate of feed and take up simultaneously to move the element relative to the means for performing the operation substantially without varying any tension in the element if the aforesaid relative positions are incorrect.
- the apparatus of Figures 1 to 3 includes a main frame or bed F carrying a storage hopper or platform 1 for a stack of paper 2-
- the stack comprises a web W formed with lines of transverse perforations 3 which divide the web into inter-connected sheets 4.
- the stack is formed by arranging the sheets in concertina fashion.
- a feed unit 5 comprises a main feed roller 6 and pressure rollers 7, 8 rotatably mounted on the frame F.
- the feed roller 6 has a toothed pulley 9 at one end which is driven through a toothed belt 10 by a toothed output pulley 12 of an infinitely variable transmission indicated generally at 13.
- a take-up unit 14 includes a main take-up roller 15 rotatably mounted on the frame F and an associated pressure roller 15a.
- the roller 15 is driven through a fluid operable slipping-type clutch 16, the torque transmission characteristics of which can be varied by fluid under pressure P fed to the clutch via a control valve 17.
- the drive to the clutch 16 is described below. From the take-up unit 14 the web W passes to a take-up hopper or platform 18 where a concertina-like stack is formed with the aid of folding means 19.
- a printing unit 22 comprising the usual platecylinder 23, blanket cylinder 24 and impression cylinder 25.
- the cylinders are mounted on the frame F, the cylinders 23, 24 preferably being mounted on an axially slidable breach-loading unit (not shown) enabling them to be withdrawn axially to one side cf the impression cyl inder for access.
- the blanket cylinder 24 has a toothed pulley 26 at one end which is driven by a toothed belt 27 from a main motor 28.
- a suitable transmission (indicated diagrammatically by line 29) transmits drive from the blanket cylinder 24 is a wheel 30 formed with equi-spaced apertures 32 on a pitch circle coaxial with the wheel.
- one revolution of the blanket cylinder will result in one revolution of the plate 30 or the ratio may be different.
- the web is held against the impression cylinder by a pressure roller 31.
- drive may be transmitted to the wheel 20 from the motor 28 by other transmission means synchronism with the blanket cylinder.
- a first light sensor 39 is arranged immediately beneath one of two lines of sprocket holes 41 ( Figure 3) extending along margins of the web.
- the spacing betweencentres of adjacent apertures 32 in the wheel 30 corresponds to the spacing between centres of adjacent sprocket holes e.g. half an inch (12.7mm).
- a light source 40 is arranged above the web and projects a light beam towards sensor 39.
- a second light sensor 42 is arranged behind the apert.ured wheel 30 and a second I ight source 143 is arranged to direct a beam of I ight towards the sensor 42 through the apertures so that the beam reaching the sensor 42 will be intermittent during rotation of the wheel 30.
- Signals from the sensors 39, 42 are fed to the micro-processor 38 which compares the signals and makes any adjustments in web speed necessary to correct misregistration.
- the apparatus is initially set up so that the web follows the path shown, the web passing around guide rollers 43, 44, 45 and 46.
- the control valve 17 of the clutch 16 is adjusted so'that with the web in motion, the rotation of the clutch through transmission 34 will rotate the roller 15.
- the clutch tends to drive the roller 15 so that its peripheral speed would be greater than the web feeding speed.
- the clutch permits sl ipping to occur so that the peripheral speed of the roller 15 remains the same as the web feeding speed.
- Such arrangement creates a tension in the web which is constant throughout the web between the feed and take-up rollers 6, 15.
- positioned relative to the blanket cylinder 25 so that the printed matter will be applied to the sheets 4 in the exact desired position.
- the size of the blanket cylinder 25 is accurately selected so that it will print the matter on one sheet or a predetermined number of sheets during one revolution as the web moves between the blanket and impression cylinders.
- the tight sensor 39 and source 40 are then aligned exactly with a sprocket hole 41 on the web and the tight sensor 42 and source 143 are aligned exactly with an aperture in the wheel 30.
- the micro-processor 38 is arranged so that the signal from the sensor 42 forms a datum with which the signal from sensor 39 will be compared.
- the variable transmission 13 is adjusted so as to feed the web at the peripheral speed of the blanket cylinder 24. Therefore, initially, the blanket cylinder will print the sheets in the desired position. With the apparatus in motion the print should, in theory, always be applied in the right position on each sheet. However, if the length of each sheet varies sl ightly, as is a common occurrence, the printed matter wi I begin to drift relative to the marginal perforations.
- the micro-processor is programmed to count the number of apertures 32 passing sensor 42 and to compare that number with the number of sprocket holes 41 passing over the sensor 39. The micro-processor may be programmed to make a comparison, say, every ten apertures.
- the senor 42 is effectively sensing the rotary position of the blanket cylinder 24 as the wheel 30 is driven directly from it. Therefore the sensors 39, 42 together sense the relative positions of the web and print applied to the web.
- FIG. 2 A typical drive arrangement for the apparatus is shown in Figure 2 where the main motor 28 drives a primary shaft 47 through a gear box 48.
- the shaft 47 carries toothed pulleys 49, 50 the former driving the blanket cylinder 24 through belt 27 and the latter driving the toothed input pulley 36 of the variable transmission 13 through the belt 25.
- the variable transmission is preferably of the type known as a Harmoni c Drive manufactured by Harmonic Drives Inc. of Tokyo Japan. However, other forms of variable transmission such as a variable epicyclic gearing could be used.
- the input pulley 36 drives the output pulley 12 through an elliptical toothed band (not shown) supported by a bearing incorporating a rotary ratio control member drivable by the servo motor 37 through a gear box 37a.
- the operation of the servo motor will vary the input speed to output speed ratio infinitely within a set range so that the web W can be transported relative to or at the same speed as the blanket cylinder depending on the signal received from the microprocessor 38.
- Figure 4 shows a typical working arrangement for the apparatus of Figures 1 to 3 and in Figure 4 parts corresponding to parts in Figures 1 to 3 have the same reference numerals.
- the bed F carries the piatforms 1 and 18 for the paper web (not shown).
- the feed unit 5 is arranged in a housing 50 and the paper (not shown) passes over the feed roller 6.
- the take-up unit 14 is also arranged in a housing 52 and includes the take up roller 15. Pressure rol lers are omitted for clarity.
- the printing unit 22 is arranged in a housing 53 and the plate cylinder, blanket cylinder and impression cylinder are indicated at 23, 24 and 25.
- a number of inking rollers indicated generally at 54 are provided in known manner.
- the apparatus is driven from the motor 28 which drives the primary shaft 47 through gear box 48 as in Figure 2.
- the servo motor 37 controls the Harmonic Drive unit or other infinitely variable transmission 13 through a gear box 37a.
- the toothed output pulley 12 of the transmission 13 is connected by a toothed belt 55 to a layshaft 56.
- the layshaft carries a toothed pulley 57 which is connected by a toothed belt 58 to a toothed pulley 59 rotatably fast with the feed roller 6.
- the layshaft 56 carries a further toothed pulley 60 which transmits drive through a toothed belt 33 to a toothed pulley 62 on a further layshaft 63.
- the pulley 62 is rotatably fast with an outer toothed pulley 64, and inner toothed pulleys 65, 66.
- the pulleys 62, 64, 65 and 66 are freely rotatable on layshaft 63.
- the pulley 64 is connected via a toothed belt 34 to a toothed pulley 67 for driving clutch 16.
- the clutch 16 drives take-up roller 15 through toothed belt 16a.
- the pulley 65 is connected via a toothed belt 68 to a toothed pulley 69 rotatably fast with a shaft 70 carrying the impression cylinder 25.
- the shaft 70 also carries a toothed pulley 71 drivably connected by a toothed belt 73 to a toothed pulley 72 for driving the numerous inking rollers 54.
- the pulley 71 is drivably connected to an adjacent toothed pulley 71a, both pulleys being freely rotatable on the shaft.
- the pulley 71a is driven by a toothed belt 75 from a toothed pulley 75a rotatably fast with shaft 63.
- the pulley 66 drives gears 74 for the web folding means (not shown in Figure 4) through a toothed belt. It will be seen, therefore, that the feed roller 6, take-up roller 15, impression cylinder 25 and the folding means are all driven from the output of the infinitely variable transmission 13.
- the primary shaft 47 drives the layshaft 63 through a toothed belt 76.
- Drive is transmitted from the layshaft by a toothed belt 77 to a gear 78 freely rotatable on the shaft 70.
- the gear 78 meshes with one of two meshing gears 78a (one only of which is shown) on the plate and blanket cylinders 23 and 24. In that manner the layshaft 63 drives the plate and blanket cylinders.
- the plate 30 is r( ;atably fast with layshaft 63 and is therefore driven in synchronism with the blanket cylinder.
- the sensors are omitted for clarity from Figure 4 and the micro- processor 38 will normally be housed conveniently in the bed of the machine.
- feed and take-up rollers 6 and 15 which transport the web W through a printing unit 22 comprising plate, blanket and impression cylinders 23, 24 and 25.
- the feed roller ; take up roller and impression cylinder are driven by a first motor 80 through belts 82; 83 , 83a and 84 respectively and the blanket cylinder 24 is driven by a second motor 85 through a belt 86.
- the motors have respective controllers 89, 90.
- a slipping-type clutch 87 is provided in the drive to the take up roller 15.
- a sensor 39 with a light source 40 senses the sprocket holes in web W.
- the tension may be zero or substantially zero.
- the web may be of a non-sprocket hole type having marks applied thereto to be picked up by sensor 39.
- the print unit could be replaced by another type of unit for carrying out some other operation, e.g. scoring or perforating, on a pre-processed web.
- a sensor may be used which directs a light beam towards the web and then receives the reflected beam. Such a reflected beam will be interrupted by the sprocket holes as the web moves past the sensor and in that way the sprocket holes can be counted.
- a similar system may be used in place of sensor 42 and light source 143.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Inking, Control Or Cleaning Of Printing Machines (AREA)
- Controlling Rewinding, Feeding, Winding, Or Abnormalities Of Webs (AREA)
- Vehicle Body Suspensions (AREA)
Abstract
Description
- The invention relates to apparatus for and method of varying the position of an operation performed on a moving element such as a web of material.
- In the field of printing, and particularly in the field of printing matter on a paper web for use in a computer print-out machine, printed matter often has to be appl ied to the web with extreme accuracy. When printing a pre-processed paper web for use in computer print-out machines, the paper web generally comprises a length of paper which has numerous evenly spaced transverse perforations to define interconnected sheets and which enables the web to be arranged as a concertina-like stack. Where a computer user requires certain basic printed matter to appear on every sheet of the stack it is essential to ensure that the printed matter is placed in a precise position on each sheet so that the printed matter al igns accurately with the print applied by the computer print-out machine.
- When printing the desired matter on the web, it is common practice to pass it between blanket and impression cylinders of a printing machine so that the printed matter will be applied to the web between the transverse perforations. However, a problem arises in that the circumference of the blanket cyl inder is always constant but does not always match exactly with the spacing of the perforations on the web. Therefore, after a period of time, misregistration occurs as the printed matter on the web "drifts" from the the initial correct position and it is highly desirable to avoid that disadvantage.
- It is known in the art to alter the position at which print is applied to a moving web of material to correct mis-registration of the web so as to vary its position relative to a printing roller by applying varying tension to the web. Apparatus of that type is described in U.K. Patent Nos. 1,262,116 ; 1,370,708 ; 1,399,394; 1,513,517 and 1,540,409. However, as excessive tension in a web can cause the web to break, it is desirable to incorporate means for sensing web tension to ensure that the tension is kept within permissible limits. No. 1,262, 116 includes a tension sensing system which includes strain gauges and No. 1, 540, 409 describes mechanically movable means for limiting tension in the web. Where a web, such as paper for use with computer print-out machines, is formed with numerous evenly spaced transverse perforations, tension applied thereto must be kept minimal otherwise the web will tear along the perforations. Therefore where such web is to be printed, machines which increase or decrease tension to correct misregistration are not ideally suitable as the tension increase necessary may cause tearing along the perforations, the upper tension limit capable of being withstood by the perforations often being quite unpredictable.
- An object of the present invention is to provide an improved apparatus which reduces the foregoing disadvantages.
- According to the present invention, there is provided apparatus for varying the position of an operation performed on an elongate moving element comprising means for performing the operation on the moving element, feed means.and take-up means for the element, sensor means for sensing the relative positioning of the element and the operation performed thereon and means operable in response to the sensor means for controlling the feed means and take-up means so that if said relative positioning is incorrect the feed means and take-up means are controlled simultaneously so as to move the web relative to the means for performing said operation substantially without varying any tension in the web between the feed means and take-up means.
- Normally, initial tension wil be appl ied to the element particularly where the element takes the form of a pre-printed paper web. Where such a web has transverse perforations, the initial tension is set below that which will tear the perforations. When varying the position of the web there will be substantially no change in the tension set initially and so the danger of tearing when correcting misregistration is substantially avoided. This is particularly advantageous as there is no need to incorporate strain gauges or mechanical tension sensing means to prevent excessive tension being applied when correcting misregistration.
- Preferably the feed means and take-up means are driven by drive means common to both and the drive means may transmit drive to the feed means and take-up means through an infinitely variable transmission controlled by said means operable in response to said sensor means. In such a case, the drive means may include a drive output which transmits drive to an input shaft of the infinitely variable transmission and which also transmits drive through transmission means to said means for performing the operation of the element
- Drive to the take-up means is preferably transmitted through a slipping-type clutch which enables a predetermined working tension to be applied to the element. By increasing the take-up speed through the clutch, the working tension will remain substantially constant as the feed rate of the feed means is increased or decreased by the same amount.
- Preferably the feed means includes a feed roller for feeding an element in the form of an elongate web, the take-up means includes a take-up roller and the means for performing an operation on the element includes printing cylinders between which the web passes with sliding contact to enable a printing operation to be performed on it, the feed and take-up rollers being arranged to increase or decrease the rate at which the web passes between the printing cylinders to vary the position of the web relative to the printing cylinders and thereby varying the position at which print is applied to the web. The printing cylinders preferably include a blanket cylinder and an impression cylinder, the impression cylinder being driven through the infinitely variable transmission so that its peripheral speed in use will always be the same as the peripheral speeds of the feed and take-up rollers, and the blanket cylinder being driven from the drive shaft of the drive means through transmission means. The sensor means may comprise a first sensor which senses the rotary position of the blanket cylinder, and a second sensor for sensing the position of the web, a rotary member being provided which is-driven by the drive means at the same rotational speed as the blanket cylinder or at a rotational speed proportional to that of the blanket cylinder,the rotary member being co-operable with the first sensor to enable the first sensor to provide a signal which effectively indicates the rotary position of the blanket cylinder. Signals from said first and second sensors may be fed to comparator means such as a micro-processor which provides an output used to control the infinitely variable transmission.
- Means for arranging the web in a predetermined manner may be arranged to receive the element such as the web from the take-up means and may be driven by the said drive means so that it operates at the same rate as the take-up means. In that manner, a web issuing from the take-up means can, say, be folded and stacked at a rate consistent with the feed and take-up rate of the web.
- In another embodiment the feed means and take-up means are driven by drive means in the form of a motor common to both and the means for performing the operation on the element is driven by a further motor, said means operable in response to said sensor means being arranged to control the relative speeds of the motors.
- According to another aspect of the invention there is provided a method cf varying the position of an operation performed on an elongate moving element comprising feeding the element at a desired rate, performing the operation on the fed element, taking up the element on which the operation has been performed, sensing the relative positions of the element and the operation performed thereon, and adjusting the rate of feed and take up simultaneously to move the element relative to the means for performing the operation substantially without varying any tension in the element if the aforesaid relative positions are incorrect.
- Three embodiments of apparatus in accordance with the invention wilt now be described with reference to the accompanying drawings in which:-
- Figure 1 is a diagrammatic elevation of apparatus in accordance with the invention for printing paper web,
- Figure 2 is a diagrammatic view of a drive system for use with the apparatus of Figure 1,
- Figure 3 is a diagrammatic perspective view showing sensor means for the web and print unit,
- Figure 4 is a diagrammatic perspective view of apparatus, similar to that of Figure 1 showing a typical working layout, and
- Figure 5 is a diagrammatic elevation of further apparatus in accordance with the invention for printing paper web.
- The apparatus of Figures 1 to 3 includes a main frame or bed F carrying a storage hopper or
platform 1 for a stack of paper 2- The stack comprises a web W formed with lines of transverse perforations 3 which divide the web into inter-connected sheets 4. The stack is formed by arranging the sheets in concertina fashion. - A feed unit 5 comprises a
main feed roller 6 andpressure rollers feed roller 6 has a toothed pulley 9 at one end which is driven through atoothed belt 10 by atoothed output pulley 12 of an infinitely variable transmission indicated generally at 13. - A take-
up unit 14 includes a main take-up roller 15 rotatably mounted on the frame F and an associatedpressure roller 15a. Theroller 15 is driven through a fluid operable slipping-type clutch 16, the torque transmission characteristics of which can be varied by fluid under pressure P fed to the clutch via acontrol valve 17. The drive to theclutch 16 is described below. From the take-up unit 14 the web W passes to a take-up hopper orplatform 18 where a concertina-like stack is formed with the aid of folding means 19. - Between the
feed unit 15 and the take-up unit 14 the web W passes through aprinting unit 22 comprising theusual platecylinder 23,blanket cylinder 24 andimpression cylinder 25. The cylinders are mounted on the frame F, thecylinders blanket cylinder 24 has atoothed pulley 26 at one end which is driven by atoothed belt 27 from amain motor 28. A suitable transmission (indicated diagrammatically by line 29) transmits drive from theblanket cylinder 24 is awheel 30 formed with equi-spacedapertures 32 on a pitch circle coaxial with the wheel. Preferably one revolution of the blanket cylinder will result in one revolution of theplate 30 or the ratio may be different. The web is held against the impression cylinder by apressure roller 31. Instead of transmitting drive to thewheel 30 from the blanket cylinder, drive may be transmitted to the wheel 20 from themotor 28 by other transmission means synchronism with the blanket cylinder. - Suitable drive transmissions (indicated generally by
lines 33 art 34) are arranged respectively between thefeed roller 6 and theimpression cylinder 25, andclutch 16. Thetransmission 33 ensures that the peripheral speeds of thefeed roller 6 andimpression cylinder 25 will always be equal and thetransmission 34 ensures that any change in peripheral speed of theroller 6 andimpression cylinder 25 is transmitted to theclutch 16 and hence to take-up roller 15. Preferably a transmission 34' is provided between theimpression cylinder 25 and the folding means 19 so that folding means will be driven in synchronism with the web. Thetransmissions - Drive from the
motor 28 is also transmitted through atoothed belt 35 to a toothed input pulley 36 (Fig. 2) of the infinitelyvariable transmission 13. The ratio between the drive input and drive output of the transmission is controlled by aservo motor 27, the latter being controlled electrically by a micro-processor 38 as described below. - A
first light sensor 39 is arranged immediately beneath one of two lines of sprocket holes 41 (Figure 3) extending along margins of the web. The spacing betweencentres ofadjacent apertures 32 in thewheel 30 corresponds to the spacing between centres of adjacent sprocket holes e.g. half an inch (12.7mm). Alight source 40 is arranged above the web and projects a light beam towardssensor 39. - A
second light sensor 42 is arranged behind the apert.ured wheel 30 and a secondI ight source 143 is arranged to direct a beam of I ight towards thesensor 42 through the apertures so that the beam reaching thesensor 42 will be intermittent during rotation of thewheel 30. - Signals from the
sensors - In use, the apparatus is initially set up so that the web follows the path shown, the web passing around
guide rollers control valve 17 of theclutch 16 is adjusted so'that with the web in motion, the rotation of the clutch throughtransmission 34 will rotate theroller 15. The clutch tends to drive theroller 15 so that its peripheral speed would be greater than the web feeding speed. However, the clutch permits sl ipping to occur so that the peripheral speed of theroller 15 remains the same as the web feeding speed. Such arrangement creates a tension in the web which is constant throughout the web between the feed and take-uprollers blanket cylinder 25 so that the printed matter will be applied to the sheets 4 in the exact desired position. The size of theblanket cylinder 25 is accurately selected so that it will print the matter on one sheet or a predetermined number of sheets during one revolution as the web moves between the blanket and impression cylinders. - The
tight sensor 39 andsource 40 are then aligned exactly with asprocket hole 41 on the web and thetight sensor 42 andsource 143 are aligned exactly with an aperture in thewheel 30. The micro-processor 38 is arranged so that the signal from thesensor 42 forms a datum with which the signal fromsensor 39 will be compared. - The
variable transmission 13 is adjusted so as to feed the web at the peripheral speed of theblanket cylinder 24. Therefore, initially, the blanket cylinder will print the sheets in the desired position. With the apparatus in motion the print should, in theory, always be applied in the right position on each sheet. However, if the length of each sheet varies sl ightly, as is a common occurrence, the printed matter wi I begin to drift relative to the marginal perforations. The micro-processor is programmed to count the number ofapertures 32 passingsensor 42 and to compare that number with the number of sprocket holes 41 passing over thesensor 39. The micro-processor may be programmed to make a comparison, say, every ten apertures. Provided that ten sprocket holes have also passed oversensor 39, no misregistration is occurring. However, if the individual sheets of the web W are slightly longer than their theoretical length and less than ten holes have crossedsensor 39, drift is occuring and the micro-processor sends a signal to theservo motor 37 to speed up the feed and take up rollers together with the impression cylinder. However, unlike prior art machines, the increase in speed does not result in any or at least any significant increase in tension in the web because the change in speed is imported to the whole of the web between the feed and take uprollers blanket cylinder 24 which offers negligible resistance to movement of the web when the when speed changes. Moreover the actual amount of relative movement between theblanket cylinder 24 and the web will be very small to correct misregistration in its early stages. - By maintaining substantially constant tension in the web there is substantially no addition strain placed on the perforations 3 in the web and the possibility of tearing is largely avoided. Operation of the
servo motor 37 continues until thesensors sensor 37 will sense more than ten sprocket holes for every tenapertures passing sensor 42. The servo motor is then operated to reduce the web speed. The apparatus is very accurate and senses and corrects misregistration early enough to avoid smudging visible to the naked eye. - It will I be appreciated that the
sensor 42 is effectively sensing the rotary position of theblanket cylinder 24 as thewheel 30 is driven directly from it. Therefore thesensors - A typical drive arrangement for the apparatus is shown in Figure 2 where the
main motor 28 drives aprimary shaft 47 through agear box 48. - The
shaft 47 carries toothed pulleys 49, 50 the former driving theblanket cylinder 24 throughbelt 27 and the latter driving thetoothed input pulley 36 of thevariable transmission 13 through thebelt 25. The variable transmission is preferably of the type known as a Harmoni c Drive manufactured by Harmonic Drives Inc. of Tokyo Japan. However, other forms of variable transmission such as a variable epicyclic gearing could be used. With the Harmonic Drive, theinput pulley 36 drives theoutput pulley 12 through an elliptical toothed band (not shown) supported by a bearing incorporating a rotary ratio control member drivable by theservo motor 37 through agear box 37a. The operation of the servo motor will vary the input speed to output speed ratio infinitely within a set range so that the web W can be transported relative to or at the same speed as the blanket cylinder depending on the signal received from themicroprocessor 38. - Figure 4 shows a typical working arrangement for the apparatus of Figures 1 to 3 and in Figure 4 parts corresponding to parts in Figures 1 to 3 have the same reference numerals.
- The bed F carries the
piatforms housing 50 and the paper (not shown) passes over thefeed roller 6. The take-upunit 14 is also arranged in ahousing 52 and includes the take uproller 15. Pressure rol lers are omitted for clarity. Theprinting unit 22 is arranged in ahousing 53 and the plate cylinder, blanket cylinder and impression cylinder are indicated at 23, 24 and 25. A number of inking rollers indicated generally at 54 are provided in known manner. - The apparatus is driven from the
motor 28 which drives theprimary shaft 47 throughgear box 48 as in Figure 2. Theservo motor 37 controls the Harmonic Drive unit or other infinitelyvariable transmission 13 through agear box 37a. - The
toothed output pulley 12 of thetransmission 13 is connected by a toothed belt 55 to a layshaft 56. The layshaft carries a toothed pulley 57 which is connected by atoothed belt 58 to atoothed pulley 59 rotatably fast with thefeed roller 6. - The layshaft 56 carries a further toothed pulley 60 which transmits drive through a
toothed belt 33 to atoothed pulley 62 on a further layshaft 63. Thepulley 62 is rotatably fast with an outertoothed pulley 64, and inner toothed pulleys 65, 66. Thepulleys pulley 64 is connected via atoothed belt 34 to atoothed pulley 67 for drivingclutch 16. The clutch 16 drives take-uproller 15 throughtoothed belt 16a. The pulley 65 is connected via a toothed belt 68 to a toothed pulley 69 rotatably fast with a shaft 70 carrying theimpression cylinder 25. The shaft 70 also carries atoothed pulley 71 drivably connected by atoothed belt 73 to atoothed pulley 72 for driving the numerous inkingrollers 54. Thepulley 71 is drivably connected to an adjacenttoothed pulley 71a, both pulleys being freely rotatable on the shaft. Thepulley 71a is driven by a toothed belt 75 from a toothed pulley 75a rotatably fast with shaft 63. The pulley 66 drives gears 74 for the web folding means (not shown in Figure 4) through a toothed belt. It will be seen, therefore, that thefeed roller 6, take-uproller 15,impression cylinder 25 and the folding means are all driven from the output of the infinitelyvariable transmission 13. - The
primary shaft 47 drives the layshaft 63 through atoothed belt 76. Drive is transmitted from the layshaft by atoothed belt 77 to agear 78 freely rotatable on the shaft 70. Thegear 78 meshes with one of two meshinggears 78a (one only of which is shown) on the plate andblanket cylinders plate 30 is r( ;atably fast with layshaft 63 and is therefore driven in synchronism with the blanket cylinder. - The sensors are omitted for clarity from Figure 4 and the micro-
processor 38 will normally be housed conveniently in the bed of the machine. - Reference is now made to Figure 5 in which parts corresponding to parts shown in Figure 1 carry the same reference numerals.
- As in Figure 1, there are feed and take-up
rollers printing unit 22 comprising plate, blanket andimpression cylinders first motor 80 throughbelts 82; 83 , 83a and 84 respectively and theblanket cylinder 24 is driven by asecond motor 85 through abelt 86. The motors haverespective controllers 89, 90. A slipping-type clutch 87 is provided in the drive to the take uproller 15. Asensor 39 with alight source 40 senses the sprocket holes in web W. Afurther sensor 42 with a light sourcel43 senses the position at which print is applied to the web either by means similar to that shown in Figure 1 or by sensing a print mark applied to the web in the printing unit. Signals from the sensors are fed to a comparator such as the micro-processor 38 which applies output signals to a control box 89 for varying the speed ofmotor 10 and hence the speed of the web relative to theblanket cylinder 24 without substantially changing the tension in the web W. The speed of the motors can be controlled simultaneously to increase or decrease the speed of the entire apparatus by acoarse control potentimeter 91. - Although I prefer to print with tension applied to the web, the tension may be zero or substantially zero.
- Although specific reference has been made to a web formed with lines of sprocket holes 41, the web may be of a non-sprocket hole type having marks applied thereto to be picked up by
sensor 39. Moreover the print unit could be replaced by another type of unit for carrying out some other operation, e.g. scoring or perforating, on a pre-processed web. - The web may be replaced by some other elongage element such as a narrow tape or filament on which some operation is to be performed at precise intervals.
- Instead of using a
light source 40 and an associatedsensor 39, a sensor may be used which directs a light beam towards the web and then receives the reflected beam. Such a reflected beam will be interrupted by the sprocket holes as the web moves past the sensor and in that way the sprocket holes can be counted. A similar system may be used in place ofsensor 42 andlight source 143.
Claims (13)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT82301494T ATE22268T1 (en) | 1982-01-26 | 1982-03-23 | APPARATUS AND METHOD FOR VARYING THE POSITION OF AN OPERATION PERFORMED ON A LONG MOVABLE ELEMENT. |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB8202112 | 1982-01-26 | ||
GB8202112 | 1982-01-26 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0084698A1 true EP0084698A1 (en) | 1983-08-03 |
EP0084698B1 EP0084698B1 (en) | 1986-09-17 |
Family
ID=10527872
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP82301494A Expired EP0084698B1 (en) | 1982-01-26 | 1982-03-23 | Apparatus for and method of varying the position of an operation performed on an elongate moving element |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0084698B1 (en) |
AT (1) | ATE22268T1 (en) |
DE (1) | DE3273272D1 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4541337A (en) * | 1983-05-31 | 1985-09-17 | Fraver S.A. | Process and apparatus for continuously treating a web adapted to pass through a computer printer |
EP0270163A2 (en) * | 1986-12-05 | 1988-06-08 | Francis Rey | Automatic, self-centering straightening machine for a continuous fabric, in particular suitable for being coupled in line with textile finishing machines, or with a printing machine |
FR2623127A1 (en) * | 1987-11-12 | 1989-05-19 | Sarda Jean Claude | DEVICE FOR SUPPLYING AND RECEIVING A CONTINUOUS STRIP FOR PRINTING PRESSES OF SHEET LEAF TYPE |
EP0464001A2 (en) * | 1990-06-29 | 1992-01-02 | ARICI, Giancarlo | Rotary printing press for overprinting |
EP1155826A2 (en) * | 1993-12-29 | 2001-11-21 | Maschinenfabrik Wifag | Rotary printing machine |
DE4344896C5 (en) * | 1993-12-29 | 2004-07-29 | Maschinenfabrik Wifag | Drive for cylinder of a web-fed rotary printing machine |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1262116A (en) * | 1969-04-21 | 1972-02-02 | Bobst Fils Sa J | Inserter and splicer with register control for a preprinted web |
GB1399394A (en) * | 1971-10-08 | 1975-07-02 | Bobst Fils Sa J | Method and apparatus for correcting longitudinal misre gistration in a multistation printing press |
GB1540409A (en) * | 1975-08-08 | 1979-02-14 | Chambon Ltd | Colour registration apparatus for a printing machine |
GB2013570A (en) * | 1978-01-28 | 1979-08-15 | Ditzel Gmbh Gebr | Method for Application of a Coating Material onto a Pattern Carried by a Web and Apparatus for Carrying Out this Method |
DE2926448A1 (en) * | 1978-06-29 | 1980-01-10 | Moulton Successors | Printing press alignment control system - has tensioning devices both sides of marking station formed between cylinders |
-
1982
- 1982-03-23 AT AT82301494T patent/ATE22268T1/en not_active IP Right Cessation
- 1982-03-23 DE DE8282301494T patent/DE3273272D1/en not_active Expired
- 1982-03-23 EP EP82301494A patent/EP0084698B1/en not_active Expired
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1262116A (en) * | 1969-04-21 | 1972-02-02 | Bobst Fils Sa J | Inserter and splicer with register control for a preprinted web |
GB1399394A (en) * | 1971-10-08 | 1975-07-02 | Bobst Fils Sa J | Method and apparatus for correcting longitudinal misre gistration in a multistation printing press |
GB1540409A (en) * | 1975-08-08 | 1979-02-14 | Chambon Ltd | Colour registration apparatus for a printing machine |
GB2013570A (en) * | 1978-01-28 | 1979-08-15 | Ditzel Gmbh Gebr | Method for Application of a Coating Material onto a Pattern Carried by a Web and Apparatus for Carrying Out this Method |
DE2926448A1 (en) * | 1978-06-29 | 1980-01-10 | Moulton Successors | Printing press alignment control system - has tensioning devices both sides of marking station formed between cylinders |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4541337A (en) * | 1983-05-31 | 1985-09-17 | Fraver S.A. | Process and apparatus for continuously treating a web adapted to pass through a computer printer |
EP0270163A2 (en) * | 1986-12-05 | 1988-06-08 | Francis Rey | Automatic, self-centering straightening machine for a continuous fabric, in particular suitable for being coupled in line with textile finishing machines, or with a printing machine |
EP0270163A3 (en) * | 1986-12-05 | 1988-11-23 | Francis Rey | Automatic, self-centering straightening machine for a continuous fabric, in particular suitable for being coupled in line with textile finishing machines, or with a printing machine |
FR2623127A1 (en) * | 1987-11-12 | 1989-05-19 | Sarda Jean Claude | DEVICE FOR SUPPLYING AND RECEIVING A CONTINUOUS STRIP FOR PRINTING PRESSES OF SHEET LEAF TYPE |
EP0317396A1 (en) * | 1987-11-12 | 1989-05-24 | Jean-Claude Sarda | Device for feeding and delivering a continuous web to presses of the one-sheet-after-another kind |
EP0464001A2 (en) * | 1990-06-29 | 1992-01-02 | ARICI, Giancarlo | Rotary printing press for overprinting |
FR2663882A1 (en) * | 1990-06-29 | 1992-01-03 | Arici Giancarlo | ROTARY REEL FOR OVERPRINTING. |
EP0464001A3 (en) * | 1990-06-29 | 1992-09-30 | Giancarlo Arici | Rotary printing press for overprinting |
EP1155826A2 (en) * | 1993-12-29 | 2001-11-21 | Maschinenfabrik Wifag | Rotary printing machine |
EP1155826A3 (en) * | 1993-12-29 | 2002-06-26 | Maschinenfabrik Wifag | Rotary printing machine |
DE4344896C5 (en) * | 1993-12-29 | 2004-07-29 | Maschinenfabrik Wifag | Drive for cylinder of a web-fed rotary printing machine |
EP0644048B2 (en) † | 1993-12-29 | 2005-03-23 | Maschinenfabrik Wifag | Rotary printing machine with blanket- and plate cylinders arranged in cylinder units in couples |
Also Published As
Publication number | Publication date |
---|---|
EP0084698B1 (en) | 1986-09-17 |
ATE22268T1 (en) | 1986-10-15 |
DE3273272D1 (en) | 1986-10-23 |
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