Adjustment method and arrangement for a printing machine

Abstract

A method of adjusting a machine (1) for printing plate elements (12) equipped with at least one rotary impression cylinder (27) includes the steps of measuring a speed of the element (12, 13) passing through the machine (1), generating an operating signal (34) as a function of the measured speed and a tangential speed of the cylinder (27), and adjusting an operating speed of the machine (1) as a function of the signal generated so that the operating speed of the machine (1) is such that the speed of the element (12, 13) is substantially equal to the tangential speed of the cylinder (27).

Claims

1. A method of adjusting a printing machine for printing plate elements, the printing machine being equipped with at least one rotary impression cylinder being driven at a constant tangential speed, a driving device for driving a plate element through the printing machine, and an infeed station positioned upstream of the impression cylinder, the method including the steps of: measuring a speed of the plate element passing through the printing machine with a detector comprising a sensor disposed for detecting the front edge of the plate element, installed downstream of the impression cylinder, based on a signal from the sensor and a signal indicating departure of the plate element sent by the infeed station; generating an operating signal as a function of the measured speed of the plate element, the operating signal being an adjustment signal for the driving device for driving the plate element; and adjusting an operating speed of the printing machine as a function of the operating signal generated, by adjusting only the speed of the driving device driving the plate element to a new speed of the driving device and keeping constant the new speed of the driving device driving the plate element, the tangential speed of the rotary impression cylinder remaining constant, so that the operating speed of the printing machine is adjusted such that the speed of the plate element driven with the new speed of the driving device is substantially equal to the constant tangential speed of the rotary impression cylinder.

2. The method as claimed in claim 1, wherein the step of measuring the speed is implemented by calculation determining the time of passage of the plate element between a machine input and a machine outfeed.

3. The method as claimed in claim 1, wherein the step of measuring the speed is implemented by calculation determining the time of passage of the plate element upstream and downstream of the cylinder.

4. The method as claimed in claim 2, wherein the time of passage is determined by detection of the passage of the element upstream and downstream of the cylinder.

5. The method as claimed in claim 2, wherein the time of passage is determined by a signal indicating departure of the element sent by an infeed station of the machine and by detection of the passage of the element downstream of the cylinder.

6. An adjustment arrangement for a printing machine for printing plate elements, the printing machine being equipped with at least one rotary impression cylinder being driven at a constant tangential speed, a driving device for driving a plate element through the printing machine, and an infeed station positioned upstream of the impression cylinder, the adjustment arrangement including: a detector which detects the passage of a plate element and sends a detection signal, comprising a sensor disposed for detecting the front edge of the plate element, installed downstream of the impression cylinder, and a calculation and control unit connected to the detector and to the driving device for driving the plate element, wherein the calculation and control unit receives the detection signal from the detector, and a signal indicating departure of the plate element sent by the infeed station, the calculation and control unit measures the speed of the plate element passing through the printing machine, the calculation and control unit generates automatically an operating signal as a function of the measured speed of the plate element, the calculation and control unit generates automatically the adjustment signal for the driving device, and the calculation and control unit controls the operating speed of the printing machine by the generated operating signal, by adjusting only the speed of the driving device driving the plate element to a new speed of the driving device and keeping constant the new speed of the driving device driving the plate element, the tangential speed of the rotary impression cylinder remaining constant, such that the speed of the plate element driven with the new speed of the driving device is substantially equal to the constant tangential speed of the rotary impression cylinder.

7. The arrangement as claimed in claim 6, wherein the detector comprises either said sensor disposed for detecting the front edge of the plate element installed downstream of the impression cylinder, or two sensors disposed for detecting the front edge of the plate elements installed upstream and downstream of the impression cylinder.

8. A printing machine including at least one printing unit provided with an impression cylinder, including an adjustment arrangement as claimed in claim 6.

9. The machine as claimed in claim 8, wherein the driving means comprises a vacuum suction device and a series of drive rollers.

10. The machine as claimed in claim 8, wherein the driving means comprises a vacuum suction device and at least one drive belt.

11. The machine as claimed in claim 8, wherein the cylinder is a plate cylinder, the printing process being a flexographic printing process.

12. A method of adjusting a printing machine for printing plate elements, the printing machine being equipped with at least one rotary impression cylinder being driven at a constant tangential speed, the method including the steps of: measuring a speed of a plate element passing through the printing machine with a detector comprising a pair of sensors disposed for detecting the front edge of the plate element, installed upstream and downstream of the impression cylinder, respectively, based on signals from both of said sensors; generating an operating signal as a function of the measured speed and the constant tangential speed of the rotary impression cylinder; and adjusting an operating speed of the printing machine as a function of the operating signal generated by adjusting only the speed of the driving device driving the plate element to a new speed of the driving device and keeping constant the new speed of the driving device driving the plate element, the tangential speed of the rotary impression cylinder remaining constant, so that the operating speed of the printing machine is adjusted such that the speed of the plate element driven with the new speed of the driving device is substantially equal to the constant tangential speed of the rotary impression cylinder.

13. A method of adjusting a printing machine for printing plate elements, the printing machine being equipped with at least one rotary impression cylinder being driven at a constant tangential speed, and a driving device for driving a plate element through the printing machine, the method including the steps of: A) measuring a speed of the plate element passing through the printing machine 1) with a first detector comprising a first sensor disposed for detecting the front edge of the plate element, installed downstream of the impression cylinder, and 2) with a second detector comprising a second sensor disposed for detecting the front edge of the plate element, installed upstream of the impression cylinder, based on a first signal from the first sensor and a second signal from the second sensor; B) generating an operating signal as a function of the measured speed of the plate element, the operating signal being an adjustment signal for the device for driving the plate element; and C) adjusting an operating speed of the printing machine as a function of the operating signal generated, by adjusting only the speed of the driving device driving the plate element to a new speed of the driving device and keeping constant the new speed of the driving device driving the plate element, the tangential speed of the rotary impression cylinder remaining constant, so that the operating speed of the printing machine is adjusted such that the speed of the plate element driven with the new speed of the driving device is substantially equal to the constant tangential speed of the rotary impression cylinder.

14. An adjustment arrangement for a printing machine for printing plate elements, the printing machine being equipped with at least one rotary impression cylinder being driven at a constant tangential speed, and a device for driving the plate element through the printing machine, the adjustment arrangement including: a first detector comprising a first sensor disposed for detecting the front edge of the plate element installed downstream of the impression cylinder which detects the passage of a plate element and sends a first detection signal, a second detector comprising a second sensor disposed for detecting the front edge of the plate element installed upstream of the impression cylinder which detects the passage of a plate element and sends a second detection signal, a calculation and control unit connected to the first and second detectors and to the driving device for driving the plate element, wherein the calculation and control unit receives the first and second detection signals from the first and second detectors, the calculation and control unit measures the speed of the plate element passing through the printing machine, the calculation and control unit generates automatically an operating signal as a function of the measured speed of the plate element, the calculation and control unit generates automatically the adjustment signal for the driving device, and the calculation and control unit controls the operating speed of the printing machine by the generated operating signal, by adjusting only the speed of the driving device driving the plate element to a new speed of the driving device and keeping constant the new speed of the driving device driving the plate element, the tangential speed of the rotary impression cylinder remaining constant, such that the speed of the plate element driven with the new speed of the driving device is substantially equal to the constant tangential speed of the rotary impression cylinder.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be clearly understood and its various advantages and features will emerge more clearly from the following description of the nonlimiting embodiment with reference to the appended diagrammatic drawing in which the single FIGURE represents a lateral general view of a printing machine including an adjustment arrangement in accordance with the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(2) As the FIGURE shows, a printing machine 1, such as a flexo printing machine, includes: a frame 2, a feeder or infeed station 3, one or more printing units, in this case five successive printing units 4, 6, 7, 8 and 9 in line printing five different colors, for example black, blue, red, green and yellow, and a machine outfeed or delivery station 11 (shown in dashed outline).

(3) The infeed station 3 receives a stack of plate elements, for example in the form of unprinted sheets 12 of corrugated cardboard and sends them one after the other into the first printing unit 4. At the outfeed of the machine 1 the delivery station 11 then recovers the printed sheets 13.

(4) The sheets 12 and 13 pass from one printing unit to another (arrow F), from the infeed station 3 to the delivery station 11 in the longitudinal direction. The sheets 12 and 13 are transported by drive means in the form of series of top drive rollers 14. The rollers 14 are driven by a motor 15, its motor drives and the necessary gears and transmission devices (see for example the document EP 0.363.662). The sheets 12 and 13 are pressed against the rollers 14 by a series of vacuum suction arrangements 16 disposed between the printing units 4, 6, 7, 8 and 9.

(5) A printing unit may include an inking device 17 with a lower ink reservoir 18, a pump 19, means 21 for circulating the ink and a squeegee chamber 22 (last two printing units 8 and 9). A printing unit may also include an inking device 17 with a lower ink reservoir 18, a pump 19, means 21 for circulating the ink and an inking roller dipping into an ink pan 23 (first three printing units 4 to 7). The inking device 17 inks an anilox cylinder 24.

(6) The anilox cylinder 24 coats with ink the plate 26 mounted on the exterior surface of a printing plate cylinder 27. The plate cylinder 27 is driven in rotation (arrow R) by rotating means such as a motor, its motor drives and the necessary gears and transmission devices, which enables adjustment of the angular position and/or the speed of the plate 26 relative to the sheet 12.

(7) In accordance with a first embodiment of the method in accordance with the invention the operating speed of the machine 1 is adjusted using the drive means 14 and 15. The new speed at which the sheet 12 passes through is therefore synchronized with the tangential speed of the plate or plates 26 fixed to the respective plate cylinder or cylinders 27. This process is effected thanks to an arrangement for adjusting the speed of the drive means 14 and 15 in the machine 1.

(8) In accordance with a second embodiment (not shown), the operating speed of the machine 1 is adjusted using means for rotating the plate cylinder or cylinders 27. The new tangential speed of the plate or plates 26 fixed to the respective plate cylinder or cylinders 27 and the tangential speed of the plate cylinder or cylinders 27 are therefore synchronized with the speed at which the sheet 12 passes through. This process is effected using an arrangement for adjusting the speed of the means for rotating the plate cylinder or cylinders 27 in the machine 1.

(9) The adjustment arrangement includes detector means adapted to detect the passage of the sheets 12 and 13. In a first example, the detector means are formed by a sensor 28 for sending the front edge of the printed sheet 13. This sensor 28 is advantageously installed downstream of the last plate cylinder 27 corresponding to the output of the last printing unit 9. For accurate calculation of the speed, this sensor 28 is installed as far downstream as possible from the infeed station 3 and just upstream of the delivery station 11. The detector means, i.e. the sensor 28, send a detection signal 29 as soon as the printed sheet 13 passes it.

(10) In accordance with a second example, the detector means are preferably formed by two sensors of the front edge of the non-printed sheet 12 and the printed sheet 13. The first of these two front edge sensors is similar to the sensor 28 of the first example.

(11) The second of these front edge sensors is formed by a sensor 31 for sensing the front edge of the sheet 12. This second sensor 31 is installed upstream of the first plate cylinder 27, corresponding to the input of the first printing unit 4. For accurate calculation of the speed, this sensor 31 is installed as far upstream as possible from the delivery station 11 and just downstream of the infeed station 3. The detector means, i.e. the second sensor 31, send a detection signal 32 as soon as the non-printed sheet 12 passes it.

(12) The adjustment arrangement further includes a calculation and control unit 33. In the first embodiment, the unit 33 is connected to the detector means, i.e. to a sensor 28 or to the two sensors 28 and 31, and also to the means 15 for driving the rollers 14. In the second embodiment the unit 33 is connected to the detector means, i.e. to a sensor 28 or to the two sensors 28 and 31, and also to the means for rotating the plate cylinder or cylinders 27. The unit 33 receives the signal from the detector means 28 or 28 and 31.

(13) The unit 33 is able to calculate the speed of the non-printed sheet 12 and of the printed sheet 13 passing through the machine 1 and is able to generate an adjustment signal for operation of the machine 1. In the first embodiment, the unit 33 is consequently able to generate automatically an adjustment signal 34 for the drive means 15. The adjustment signal 34 makes it possible to equalize the speed of the sheet 12 or 13 with the tangential speed of the plate or plates 26 on its respective plate cylinder or cylinders 27. In the second embodiment the unit 33 is consequently able to generate automatically an adjustment signal for the means for rotating the plate cylinder or cylinders 27. The adjustment signal 34 makes it possible to equalize the tangential speed of the plate or plates 26 on its respective plate cylinder or cylinders 27 with the speed of the sheet 12 or 13.

(14) In the first and second embodiments the adjustment signal 34 makes it possible to equalize the speed of the drive means 15 with the tangential speed of the plate cylinder or cylinders 27.

(15) The method of adjusting the machine 1 includes a plurality of successive steps following on from the steps of printing the pattern or patterns on the sheets 12.

(16) In a first step, the speed of the non-printed sheet 12 and the printed sheet 13 passing through the machine 1 (arrow F) is measured. This step consisting in measuring the speed of the sheet 12 or 13 passing through the machine 1 (arrow F) may be implemented by calculation determining the time for the sheet 12 or 13 to pass between a machine input, i.e. the infeed station 3, and a machine outfeed, i.e. the delivery station 11.

(17) This step consisting of measuring the speed of the sheet 12 or 13 passing through the machine 1 (arrow F) may be implemented by calculation determining the time for the sheet 12 or 13 to pass upstream and downstream of the cylinder or cylinders 27.

(18) This step consisting in measuring the speed of the sheet 12 or 13 passing through the machine 1 (arrow F) may also be implemented by sending and receiving waves, for example light waves or radar waves, reflected by the sheet 12 or 13.

(19) In accordance with the first example, to determine the start of the passage time, a signal indicating departure of the sheet 12 is sent by the infeed station 3 of the machine 1 or by the machine 1 itself. This departure signal is similar to a departure pulse. To determine the end of the passage time, the passage of the sheet 12 is detected downstream of the plate cylinder or cylinders 27 of the respective printing unit or groups 4, 6, 7, 8 and 9, thanks to the sensor 28 which generates its detection signal 29. The real speed of the sheet 12 or 13 is calculated knowing the distance between the infeed station 3 and the sensor 28.

(20) In accordance with the second example, to determine the start of the passage time the passage of the sheet 12 is detected upstream of the plate cylinder or cylinder 27 of the printer group or groups 4, 6, 7, 8 and 9 thanks to the second sensor 31 which generates its detection signal 32. To determine the end of the passage time the passage of the sheet 12 is detected downstream of the plate cylinder or cylinders 27 of the printing unit or groups 4, 6, 7, 8 and 9 thanks to the first sensor 28 which generates its detection signal 29. The real speed of the sheet 12 or 13 is calculated knowing the distance between the plate cylinder or cylinders 27 or between the two sensors 28 and 31.

(21) In a second step of the method an adjustment signal 34 is generated by the unit 33 and sent to the drive means 15. This signal 34 is a function of the passage time F measured for the non-printed sheet 12 and the printed sheet 13, i.e. the calculated speed, and the rotation speed of the plate cylinder or cylinders 27. The real speed calculated for the non-printed sheet 12 and the printed sheet 13 is compared with the tangential speed of the plate cylinder or cylinders 27.

(22) In a third step of the first embodiment of the method the speed of the drive means 15 is adjusted as a function of the adjustment signal 34 generated.

(23) If the real speed calculated for the non-printed sheet 12 or for the printed sheet 13 is greater than the tangential speed of the plate or plates 26 on the respective plate cylinder or cylinders 27 the adjustment signal 34 generated takes a value corresponding to a deceleration of the drive means 15. If the real speed calculated for the non-printed sheet 12 and the printed sheet 13 is less than the tangential speed of the plate or plates 26 on the respective plate cylinder or cylinders 27 the adjustment signal 34 generated takes a value corresponding to an acceleration of the drive means 15. If the real speed calculated for the non-printed sheet 12 and the printed sheet 13 is equal to the rotation speed of the plate or plates 26 on the respective plate cylinder or cylinders 27 the adjustment signal 34 generated takes a null value.

(24) The adjusted new speed for the drive means 15 is such that the new speed of passage of the sheet 12 or 13 is equal to the tangential speed of the plate or plates 26 on its plate cylinder or cylinders 27.

(25) In a third step of the second embodiment of the method the speed of the means for rotating the plate cylinder or cylinders 27 is adjusted as a function of the adjustment signal generated.

(26) If the real speed calculated for the non-printed sheet 12 and the printed sheet 13 is greater than the tangential speed of the plate cylinder or cylinders 27 the adjustment signal generated takes a value corresponding to an acceleration of the means for rotating the plate cylinder or cylinders 27. If the real speed calculated for the non-printed sheet 12 and the printed sheet 13 is less than the tangential speed of the plate cylinder or cylinders 27 the adjustment signal generated takes a value corresponding to a deceleration of the means for rotating the plate cylinder or cylinders 27. If the real speed calculated for the non-printed sheet 12 and the printed sheet 13 is equal to the rotation speed of the plate cylinder or cylinders 27 the adjustment signal generated takes a null value.

(27) The adjusted new tangential speed for the means for rotating the plate cylinder or cylinders 27 is such that the new tangential speed of the plate or plates 26 on its plate cylinder or cylinders 27 is equal to the speed of passage calculated for the non-printed sheet 12.

(28) The present invention is not limited to the embodiments described and shown. Numerous modifications may be made without departing from the scope of the invention defined by the set of claims. Sensors may be installed after each printing unit 4, 6, 7 and 8 and their information enables adjustment of the speed at which the printed sheets 13 are transported.