DE676108C - Cutting device with the help of which fibrous webs are cut at certain points - Google Patents

Description

Cutting device, with the help of which fibrous webs at certain Places are cut The subject of the invention is a monitoring device for cutting devices for fibrous webs, such as paper, fabric and the like there often the task ahead, one with a certain pattern or an imprint to cut provided fibrous web in such a way that the cut at certain points of the pattern is: Such a task exists, for example, when papers that for wrapping objects, e.g. B. as bags, are used, cut to size should be. With such machines it can hardly be avoided that the once set certain phase relationship between the tailor and the pattern of the fabric by slipping the fibrous web opposite the drive device or disturbed by changing their dimensions, temperature, humidity and the like will.

It is now known to maintain synchronism between the fibrous web and the cutting knife radiation-sensitive cells, in particular Photocells to be used, which either have the pattern of the fibrous web itself or monitor specific brands. Is determined with the help of this cell, that the phase position of the cutting knife no longer corresponds to the position of the pattern or the Synchronization marks match, the relative speed is between. Cutting knife and fibrous web changed.

With such a cutting device difficulties can arise arise that the light-sensitive cells do not only respond to changes in brightness, but with constant illuminance also on changes in the Address the color of the light. Should the cutting machine now be used for cutting Lanes of different colors are used, for example, one time blue paper, the other time yellow paper would be cut, so would be because of the Color sensitivity of the cells before commissioning a readjustment of the monitoring device necessary. The correct functioning of the monitoring device is completely called into question in those cases in which there are sudden changes in color on the length of fabric that has just been processed occur, for example, if the length of fabric is cross-colored with stripes. The sudden one A change in color could then have the same effect on monitoring devices like one for the purpose of control intended synchronization mark, and unwanted control processes could be triggered in this way. These Difficulties are overcome according to the invention in that in addition to the A second cell is also provided for the cells controlling the phase position of the cutting knife that cancels the effect of the control cell at the same exposure and is related is arranged on the fibrous web in such a way that changes in color of the fibrous web, which should not cause any disruptive effects, the exposure of the additional cell change to the same extent as that of the control cell. So the invention makes of the in another context already known differential circuit in such a Wise use that only the synchronization marks can trigger a control process, while other changes in the coloration of the fabric web have no effect on the monitoring stay.

An embodiment of the invention is shown in the figures.

The related Figs. I and 2 show schematically an arrangement according to the invention. With a motor i denotes that of the busbars 2, 3 and 4 is fed via switch 5. 6 is a cutting tool that comes with the engine i is coupled by a reduction gear 7. The motor i also drives the role via a differential gear and a gear with variable translation 8 at. With the help of the motors 9 and io can with the help of the differential gear a Additional speed can be generated. The translation ratio of the changeable The transmission can be changed by means of the cam 66 connected to a handwheel i i will. The feed device (roller 8) is connected to the shaft 12 via a suitable Reduction gear coupled. The device used for monitoring contains the light or radiation sensitive cells 13 and 14 and the light sources 15 and 16. The is used to amplify the voltages supplied by cells 13 and 14 Tube amplifier 17 and two discharge vessels 18, i9 (Fig. 2). 20 is a time limiter. 21 and 22 are contactors that act both on the control of the motors 9 and io as well as contacts in the anode circuit of the tubes 18, i9.

The fibrous web (paper or fabric) 55 is provided with marks 23, with the help of which the cutting device is brought into synchronism with these marks will. The marks can be made by printing. But watermarks can also be used used in paper. ' The synchronism between the feed of the fibrous web and the cutter is observed with the aid of the contact segments 24, 25, 26. Of the The purpose of this synchronization is to achieve that the cut in each case specific position to the marks applied in the fibrous webs. if the cut takes place at the right time, takes place in the moment in which through marks 23 a pulse is triggered by influencing cells 13 and 14, no contact takes place. However, if the marks 23 are not in the right position opposite the cutting knife, the impulse given and amplified by the photocells will be the tubes 18, ig fed via the contactors 21, 22 and 27, 28 to one of the motors 9 and io set in motion and thereby the fibrous web such an additional speed issue that the correct position of the marks in relation to the tailor is restored will. The running time of the motors 9 and io is determined by a time element 2o. This time element contains the discharge vessel 3o, the relay 31 and the capacity 34 and resistors 32 and 33.

The DC voltages required to feed the amplifier 17, the photocells and to amplify the control electrodes of the tubes 18 and ig are generated with the aid of a power supply unit. This mains connection device has the transformer 38 which is connected to the alternating current lines 35, 36. The winding 47 feeds the lamps 15, 16. The winding 48 is used to heat the tube 17, the winding 50 for heating the rectifier tube 51. The alternating voltage used to generate the direct voltage is tapped off at the winding 49. The current supplied by the rectifier tube 51 is fed to the filter chain formed by the capacitors 84, 85 and the choke 81, to which a voltage divider 75 is connected. The heating of the tube 17 is connected at point 73 to this voltage divider. The grid of the tube 17 is connected on the one hand to the anode of the photocell 13 and the cathode of the cell 14. It is also connected to the auxiliary voltage divider 52, 54 via the resistor 53. The cathode of the cell 13 is connected to the negative end of the voltage divider 75, while the anode of the cell 14 is connected to a positive potential with respect to the cathode of the tube 17 (point 92).

The photocell 1 3 is arranged with respect to the light source so that the light coming from the light source 15 and reflected by the fiber web 55 light sensitive part of the cell applies: The size of the resistor 53 and the resistors 52 and 54 is selected so that a small change in the exposure of the cell causes a considerable change in the photocell current. A change in the photocell current is transmitted to the grid of the tube 17, so that the anode current of this tube changes.

The cell 14 is connected in such a way that when this cell is exposed, the voltage at the grid of the tube 17 changes in the opposite direction. This has the consequence that the color, shading of the fibrous web, change in the voltage of the supplying current source has no effect on the tube 17 . By using two photocells, changes in the lighting of the fiber web, changes in color and changes in the supply voltage can be made harmless, ie such changes cannot simulate impulses corresponding to the brands.

If you follow the circuit of the photosensitive cells 13 and 14 just described, you can see that the end of the resistor 53 connected to the grid of the control tube 17 on the one hand with the anode of the cell 13 and on the other hand with the cathode of the cell .1q. connected is. Since the cathode of the cell 13 is at the left end of the resistor 52 and the anode of the cell 14 is at the right end of this resistor, the currents flowing through both cells at the same level of exposure cancel each other out with regard to the resistor 53, so that none at this resistor Voltage arises and the grid of the tube 17 is not affected. This differential effect of the two cells can only be disturbed and a control pulse triggered by the synchronization marks.

Although two photocells are used in a compensation circuit, only one, mainly the cell 13, is important for the control of the motors 9 and io. This can be seen from the following: When the device is in operation, the knife of the cutting device 6 and the contact segments 24, 25, 26 revolve. In addition, the roller serving to advance the fibrous web is driven via the differential 6o and the control gear 61. It is assumed that initially the pulp introduced into the machine, e.g. B. paper, is not in the correct position with respect to the cutting knife. In order to initially bring about an approximate setting of the paper web relative to the knife, one of the motors 9 or io can be set in motion with the help of the switches 71, 72 and thereby an additional speed in the positive or negative sense can be given to the fibrous web via the differential gear 6o. If in this way die.Fasstoffbahn is brought into the correct position with respect to the cutter, displacements of the fibrous web are compensated, regardless of whether these displacements from sliding against the roller 8, changes in dimensions, surface properties, changes in temperature or the like. Like. Be caused. As a result of such changes, the marks 23, which are attached at regular intervals on the fibrous web, move in relation to the cutting device or the segments 25 or 26.

Every time one of the marks 23 moves under the light source 15, so that the light reflected back into the cell 13 causes a change in the photocell current brings about, the grid voltage of the amplifier is changed in such a way that the anode current sinks. The resulting change in voltage at resistor 77 is caused by the Conductor 76 after the contact segments 24, 25, 26 transferred. When the cutter is in the correct phase position with respect to the marks 23, that of the impulse delivered to the photocells the contact device 24, 25, 26 in an instant, in which the brushes sliding on the contact devices 25, 26 with the conductive Contact segments are not in contact. However, if a phase shift has taken place, this pulse occurs because one of the contact segments 25, 26 a conductive connection between. the line 76 and one of the lines 86 or ioi is made. With which line this connection is established, depends on whether the knife is leading or lagging. When the knife runs too fast the connection to the line 86 is established and thereby the grid potential of the discharge tube i9 so that the tube ignites. The anode current of this Tube flows over the winding of the relay 21, so that this relay is its armature attracts and the contact 94 closes. This energizes the contactor 27 and the motor 9 started. This motor gives the fibrous web such an additional speed, that synchronism is restored. In the anode circles of the tubes 18 and i9 are still the contacts 9i and 95, through which a mutual blocking the two tubes is brought about. If, on the other hand, the knife is lagging behind, then will the pulse delivered by the photo cells via the contact device 25 to the grid the tube 18 is fed, whereupon the 'described process is repeated accordingly, The only difference is that now the additional speed given to the paper web will give the opposite sign. To the limit the A time limit device 2o is provided for the running time of the motors 9 and io. It is fed by the transformer 37, which also has currents for the discharge vessels 18, ig supplies. The transformer 37 is connected to the alternating current line 35,36. The winding 4o is used to feed the filament of the tube 3o. The winding 41 supplies the anode voltage for the with the interposition of the rectifier 42 Tubes 18, i9. The winding 39 feeds the filaments of these tubes. In the supply circuit of the rectifier 42 is the contact 43 of the relay 31.

The time-limiting device 20 operates in the following way: As soon as one of the tubes 18 or 19 carries current, the relay 46 is energized, which opens the contact 99 and closes the contact 98. By closing the contact 98, the excitation circuit of the relay 31 is prepared, which interrupts the supply circuit of the rectifier 42 when it is excited by the contact 43. By opening the contact 99, the shunt via the capacitor 34 is canceled, so that this capacitor is gradually charged via the resistor 32. After a certain period of time, which depends on the size of the capacitance and the resistor 32 as well as the resistor 33, the tube 30 ignites so that the circuit prepared via the contact 98 is closed. After the contact 43 is opened, the voltage for feeding the tubes 18, 19 remains off, so that the relay 46 also returns to the rest position. This opens the contact 98 again and closes the contact 99. As a result, on the one hand, the control process is ended and, on the other hand, the time-limiting device is returned to the rest position. If the correction of the phase position of the cutting knife with respect to the marks 23 brought about by the process described has not been sufficient, the process described begins anew.

Claims (1)

PATENT CLAIM: Cutting device, with the help of which fibrous webs, z. B. paper or fabric, are cut at certain points and where the Phase position of the cutting knife for the position of certain synchronization marks of the fibrous webs monitored with the help of radiation-sensitive cells (light-sensitive cells) is, characterized in that in addition to controlling the phase position of the cutting knife Cell still a second cell is provided, which contributes to the effect of the control cell the same exposure cancels and is arranged in relation to the fibrous web in such a way that that changes in the color of the fibrous web, which should not have any control effect, change the exposure of the additional cell to the same extent as that of the control cell.