FR2690643A1 - Device for adjusting a cutting blade for cutting continuous strips of material - Google Patents

Abstract

A blade (3) is mounted on a rotating cylinder (1) and a blade (5) cooperating with the previous one is placed on a blade holder (6) mounted in a fixed position. The blade holder (6) mounted in a fixed position is disposed obliquely on the axis (2) of rotation of the cylinder (1). This blade holder (6) rests by means of two detectors (7, 8) on a cross member (9). A skinning unit calculates a momentary cutting force using the signals from the sensors (7, 8). Application to the transverse cutting of continuous sheets in processing machines which are mounted downstream of a rotary printing machine.

Description

The invention relates to a device for adjusting a blade of

  cutting continuous webs of material, in particular to perform their cross section in processing machines mounted downstream of a rotary printing machine. DE 29 22 164 C 2 discloses a device for cross section of sheets in paper, cardboard or the like. Blades mounted on two rotary drums meet each turn thereof in pairs to make the cut. One of the blades a drum that cooperates two by two is fixed in the latter by wedges and clamping bolts Multiple sliding keys juxtaposed over the width of the blade to adjust the end thereof, which is cleared and which This embodiment has the disadvantage, on the one hand, that the modification of the adjustment of the blade is carried out by hand by means of multiple screws and sliding keys, which which requires a lot of time for the development in case of modification of the cutting conditions Another disadvantage is that no reference is available for a possibly necessary correction of the adjustment of the blades; the accuracy of the correction is therefore subject to

  to the subjective appreciation of the servant of the machine.

  The object of the present invention is to simplify the determination of the correct adjustment of the cutting blades and to shorten the focusing time which is

  necessary compared to the prior art.

  According to an essential feature of the invention, a blade holder is mounted in a fixed position obliquely relative to the axis of rotation of the cylinder, the blade holder occupying a fixed position is mounted by means of two detectors on a crossbar. and a stripping unit calculates a momentary force of

  cutting from the signals of the detectors.

  A minimum number of detectors not only makes it possible to lower the noise level and reduce the risk of vibrations due to the oblique position of a blade holder relative to an axis of rotation, but also to determine the variation in the force required for the cutting which is carried out progressively along the entire width of the blade. It suffices for this purpose that the detectors transmit at each instant the signals to the stripping unit while the location of the According to another advantageous feature of the principle of the invention, a device for measuring the angle of rotation is assigned to the rotary cylinder. The stripping device can therefore receive, in addition to the signals from the detectors, a piece of information. on the angular position of the rotating cylinder This allows to attribute the force

  determined at the corresponding zone of the blade holder.

  It is furthermore provided that the blade holder is subdivided into a plurality of cutting zones Regulating members assigned to the individual cutting zones make it possible to vary in these, by means of a remote control, the positions of the individual zones of a lower blade The remote control of the regulating devices

  individual examples, for example in the form of servo

  Individually driven motors can act specifically on a cutting area Pressing a button allows corrections to be made while the machine is running slowly without the need for it

  hand-made settings that take time.

  According to one embodiment of the invention, the

  detectors are torque rings or the like.

  The use of these components as force sensors makes it possible to adapt the characteristics of the signals to individual criteria and makes it possible to manufacture the device of the invention at low cost. When a device is used to measure the angle of rotation, the stripping unit determines by zone, using the signals of the detectors and a signal of the angle of rotation measuring device, the cutting force which is used and indicates it on a display. , quantities of the correction to be made by the regulating elements of the zones are indicated on the display in the presence of deviations between the cutting force determined in each zone and the instructions of the cutting force of each zone. printer to achieve, from a first approximate adjustment of the lower blade, directly to the correct fitting thereof without taking unnecessary time for preparation and without producing macu due to an incorrect setting of

the cutting blade.

  According to an alternative embodiment of the invention, it is possible not to use a device for measuring the angle of rotation and to determine in the stripping unit, by means of the variation in time of the detectors and interpolating between the signal flanks, a cutting force corresponding to the area

  to represent by areas on the display.

  The invention will be described by way of example with reference to the accompanying drawing in which FIG. 1 is a diagrammatic representation of a rotary cylinder and the corresponding support of a lower blade and FIG. 2 is a diagram of the unit. of

  skinning and viewing connected to it.

  A rotating cylinder 1 supports at least one upper blade 3 at its circumference The cylinder 1 rotates about an axis 2 A device 4 for measuring the angle of rotation can be provided on an extreme side of the cylinder 1 in order to detect the exact angular position A crossbar 9 is fixed under the cylinder 1 A blade holder 6 supported by two detectors 7 and 8 and resting on this cross member houses a lower blade 5 The blade holder 6 is disposed obliquely with respect to the axis 2 of rotation of the cylinder 1, so that it must perform a rotation of the angle df to cut the sheet of material over its entire width The obliquity of the blade holder 6 on the axis 2 of rotation of the cylinder l lowers the level of

  noise and decreases the tendency for vibrations to appear.

  The blade holder 6 is subdivided on its side into cutting zones 6a which are juxtaposed and which cover the entire axial length of the lower blade 5 A regulating member 6b assigned to each cutting zone 6a can be produced for example under The shape of an adjusting screw The latter whose threading is fine can be moved in the particular cutting zone 6a and act on the part of the lower blade 5 which corresponds to the particular cutting zone 6a. The regulating members 6 b may optionally be connected, at the end facing away from the blade holder 6, to the servo motor shaft for their remote control; in this particular case, a servomotor 6 may be assigned to each of the regulating members 6b so that it is possible to act on each cutting zone 6a without causing any side effect. In the example shown in FIG. 1, the detectors 7 and 8 placed under the blade holder 6 consist of dynamometric rings. Nevertheless, it would be possible to use strain gauges or other detectors for the measurement of force. the output signals could be transmitted to a stripping unit The strut 9 placed under the detectors 7 and 8 is mounted in a fixed position on the machine and assumes the support function of the blade holder 6 FIG. 2 represents a stripping unit

  to which a display is connected.

  The signals of the rotational angle measuring device 4 as well as the detectors 7 and 8 are transmitted to a stripping unit 10. A display 11 connected to the stripping unit 10 indicates the quantities determined by zones. Data concerning the instructions a cutting force of a special quality of a printing substrate to be processed is first transmitted to the stripping unit 10 as part of a

2690643

  pre-adjustment This can be done according to the particular criteria according to the specifications of an order or the customer A cut by the two blades is carried out after a first rough adjustment of the lower blade 5 The blade holder 6 being oblique on the axis 2 of rotation of the cylinder 1, it is necessary that it rotates by an angle dy to perform a total cut A cutting force can thus be determined for each zone 6a from the signals of the detectors 7 and 8 The signals of the device 4 for measuring the angle of rotation make it possible to attribute this cutting force precisely to an area 6a. When a total cut has been made, the complete variation of the cutting force of the zone I up to zone N can be determined This variation per zone of the cutting force can be indicated to the printer on the display 11 A comparison of the set point and the actual cutting force makes it possible to determine the differences in each zone 6 These deviations are indicated to the printer by the display 11 and are stored in the form of correction quantities. The printer can then pass the stored correction variables directly to the control station of his machine or in the cross-cutting device. in order to start the corresponding servomotors if they are provided The cutting blade is then correctly adjusted and it is therefore possible to proceed to production The measurement of the cutting force as a function of the angle of rotation allows to minimize the costs of detection, because it is not necessary to provide

  each cutting zone 6 has a separate detector.

  Another possibility of using the device of the invention to determine the cutting force will be

briefly described.

  When the device 4 for measuring the angle of rotation is not used, the stripping unit 10 can perform the calculation of the cutting force by analyzing the sidewalls of the signals of the detectors 7 and 8. The variation in the signal time, for example the growth in zone I, the decay in zone N, makes it possible to determine the cutting force in the particular zone 6a by interpolation between the edges of the signals. The interpolated magnitudes of the cutting force can also be indicated as a zone on the display 11 As mentioned above, it is possible to determine the differences between the cutting forces determined in each zone and the setpoints prescribed for each of them and to store them in the form of correction quantities. If servo motors are provided, it is possible to transmit to them a correction variable so that they move the regulating members in order to perform the adjustment of the cutting blade and to guarantee correct positioning of the blades relative to each other according to the prescribed instructions If the regulating devices are adjusted by hand, their correction quantities can be read by zone on the display it and be converted to

  hand by rotating a set screw -.

Claims (9)

  1 device for adjusting a cutting blade for cutting continuous strips of material, a blade being supported by a rotary cylinder and a blade which cooperates with the preceding being supported by a blade holder mounted in a fixed position, characterized by the following features: 1.1 the blade holder (6) mounted in a fixed position is placed obliquely with respect to the axis of rotation (2) of the cylinder (1), 1.2 the blade holder (6) occupying a fixed position is mounted by means of two detectors (7, 8) on a beam (9) and 1.3 a stripping unit (10) calculates a momentary cutting force from the signals of the detectors (7, 8).   2 device for adjusting a cutting blade according to claim 1, characterized in that a device (4) for measuring the angle of rotation is assigned to the rotary cylinder (1).   3 Device for adjusting a cutting blade   according to claim 1, characterized in that the holder   blade (6) is subdivided into a plurality of cutting zones (6 a).   4 Device for adjusting a cutting blade according to claim 3, characterized in that regulating members (6b) assigned to the individual cutting zones (6a) make it possible to vary by zone and by means of a remote control the positions of the individual areas of a lower blade (5).   5 device for adjusting a cutting blade according to claim 1, characterized in that the   detectors (7, 8) are dynamometric rings.   6 device for adjusting a cutting blade according to claim 1, characterized in that the   detectors used (7,8) are strain gauges.   7 Device for adjusting a cutting blade   according to one of claims 1 and 2, characterized in that   the stripping unit (10) determines the cutting force deployed in each zone from the signals of the detectors (7, 8) and from a signal of the rotational angle measuring device (4) and indicates on a display (11).   8 device for adjusting a cutting blade according to claim 7, characterized in that correction quantities for the regulating members (6 b) of each zone are calculated from the differences between the cutting force determined in each zone and a deposit   corresponding and are indicated on a display (11).   9 Device for adjusting a cutting blade   according to one of claims 1 and 3, characterized in that   that the stripping unit (10) determines a cutting force corresponding to the area of interest (6 a) from the time variation of the detector signals (7, 8) and interpolating between the signal flanks and the   represents by zone on the display (11).