DE10023210B4 - Method for positioning lower knives on a device for longitudinally dividing a material web - Google Patents

Abstract

Method for positioning knives, in particular lower knives (I, II, III), on a device for longitudinally dividing a material web, in each of which an upper knife (A, B, C) interacts with a lower knife (I, II, III), the at least one displacement device (8) which can be brought into engagement with the respective knives to be positioned via engagement means (13), is connected to a measuring device having a computer (12) and is connected to a controllable drive, and characterized in that that the sensor (15) connected to the displacement device (8) is moved past the knife (I, II, III) to be positioned and one after the other from the edges (6, 19) of the knife (I, II, III) Signal is generated, from the given assignment of the direction of movement of the sensor (15) for aligning the cutting edges (6) of the knives (I, II, III) the signals emanating from the sensor (15) as "cutting edge" and as a "construct ion edge "in the computer (12) and the signal of one of the edges (6, 19), which is defined in the computer (12) as" measuring edge ", the actual distance of the" measuring edge "from a base mark (14) in the computer (12) is detected (actual distance) and then the knife (I) to be positioned after engagement of the engagement means (13) of the displacement device (8) is displaced until the predetermined distance of the "measuring edge" to the base mark (14) (TARGET Distance) is achieved and that for the knife to be positioned (I, II, III) when determining the displacement distance between the actual distance and the desired distance, which is due to a given distance in the direction of displacement between the sensor firmly connected to the displacement device (8) (15) and the engagement means (13) on the displacement device (8) are predetermined geometric engagement conditions between the displacement device (8) and the knife (I, II, III) to be positioned in the computer (12).

Description

At slitting facilities a material web with mutually assigned upper knives and lower knives, who are engaged with each other are on a corresponding one Knife shaft or several on a corresponding lower cutter bar Lower knives in the form of plate knives, cutting rings or the like arranged. Such knives are either displaceable on the knife shaft. and held securely or via separate knife holder arranged displaceable and fixable on a cutter bar. ever according to the design of the facility at least the cutting edges the lower knife can be reground from time to time. With so-called Grooving knives, which are mounted on a knife shaft, become Regrinding all lower knives removed from the knife shaft and postponed after grinding. For lower knives that are Knife holders are arranged, the lower knives are separated from the individual knife holders removed and reconnected to the knife holder after sharpening, which in its given position is connected to the lower cutter bar remains. In both cases it is necessary to reposition the lower knives because regrinding has changed the position of the cutting edge.

Out DE 295 09 893 U1 A positioning device for lower knives is known, which has a displacement device, on which a gripping device for the lower knife to be displaced, which includes the lower knives over the outer circumference, and two optical lasers for detecting the cutting edge are arranged. The lasers are arranged at a small distance of about 0.1 mm from one another in the direction of displacement in order to detect the position of the cutting edge by means of a “positive” signal from one laser and a “negative” signal from the other laser. This arrangement is very complex and cannot distinguish one "cutting edge" from another edge on the individual lower knives.

Out EP 0 770 460 A2 It is known to approach a knife to be positioned with a displacement device via a programmed control device, to register the respective edge of the knife, which was first detected by an inductive sensor, using a signal. The displacement device is then moved to the specified geometric center of the knife via the width of the knife stored in the program, and then the driver means are activated and the knife is moved to the new position specified by the control device. A correction with regard to regrinding and the resulting change in the knife width is not possible since the position of the cutting edge is not detected.

Out EP 0 976 509 A2 it is known to record the actual position of the cutting edge relative to a carrier via a first sensor and to register the position of the movable carrier relative to a zero mark via a second sensor and to link these two values in a computing operation via a corresponding control device. The shifting device is then actuated. Such an arrangement is not only complex, but also includes a variety of causes for measurement errors.

Out EP 0 501 123 A2 A method for positioning knives, in particular lower knives, on a device for longitudinally dividing a material web of the type described at the outset is known, in which a transport rod which can be coupled to the respective lower knife and is connected to a controllable drive and a separate measuring device provided with a sensor is used , The measuring device with the sensor is moved past the knife to be positioned, a signal being generated from the edges of the knife one after the other that from the given assignment of the direction of movement of the sensor for aligning the cutting edges of the knives, the signals emanating from the sensor as "cutting edge""and are identified as" construction edge "in the measuring device and the actual distance of the" measuring edge "to a base mark in the measuring device is detected via the signal of one of the edges, which is defined in the measuring device as" measuring edge "(actual distance). Then the knife to be positioned is moved after coupling to the transport rod until the specified distance between the "measuring edge" and the base mark (TARGET distance) is reached and the coupling is released again.

The invention has for its object that to improve previously known methods so that even with simply designed Intervention means that do not have high precision, an exact Positioning of the cutting edges is possible. This task will solved with the method steps specified in claim 1.

A "measuring device" in the sense of present invention a programmable electronic computer with data storage, associated with this Means for controlling the drive of the displacement device, furthermore means for detecting and signaling the displacement path to the computer and the sensor for detecting the "edges" of the knives.

With the aid of this method, the predetermined “measuring edge” can be uniquely identified with only one sensor, preferably a laser beam transmitter-receiver. The result of the The design of the knife and the number of edges per sensor that can be detected by the sensor can be taken into account in the stored program. So-called grooving knives or plate knives have two edges, while in the case of so-called cutting rings, due to the structural conditions, there are four edges which are detected along the knife when the knife is moved.

Are the lower knives for example arranged so that all as "measuring edges" defined cutting edges in each case on the side away from the zero mark Side of the lower knife are arranged in the memory of the measuring device is then programmed by the measuring device via the sensor from each undercutter two signals triggered by the edges are detected. by virtue of the assignment described above is the "signal 1" by the defined by the back surface Edge and the "Signal 2" generated by the cutting edge. Here it is in principle irrespective of the distance between the individual lower knives are arranged, provided that at least the necessary for operation, based on the direction of movement, first lower knife with both edges is detected by the sensor of the displacement device. It is only necessary to that of the measuring device the direction of movement of the displacement device during the Acquisition process taken into account becomes. If the acquisition process starts at the zero mark, you can at a corresponding point "Programming" the electrical or electronic measuring device be specified that only every second signal, i.e. through a cutting edge of each lower knife triggered Signal as "measuring edge" detected becomes.

With so-called cutting rings four each detectable by the sensor There are edges, with the second edge depending on the direction of movement or the third edge is the cutting edge and therefore expediently the "measuring edge" forms.

The movement of the displacement device takes place from the end facing away from the zero mark, the measurement device that each the "signal 1" represents the "measuring edge" and accordingly the "signal 2" only in the sequence of the signals to identify the next one Cutting edge considered becomes. Having over that way the measuring device for a lower knife the actual distance between the cutting edge and the zero mark is recorded, can about the measuring device the displacement device can be controlled accordingly, so that the Sliding device after engagement of a corresponding engagement means, the lower knife is moved until the cutting edge is at the TARGET distance.

As by the successive signals a lower knife is defined, can also from the respective sequence of the signals to be shifted Identify the lower knife so that it is in the measuring device predetermined number of lower knives with their associated TARGET distances Cutting edges can be positioned one after the other each lower knife can.

Because the width of the lower knife and thus the assignment of the edges to each other, from small dimensional deviations after grinding the cutting edge, known as the basic dimension is, can Lower knife at any distance from each other on the lower knife shaft be arranged. When the "correct" start of counting is every lower knife from the signal sequence "1" and "2" for slot or plate knives and from the signal sequence "1", "2", "3" and "4" can be identified for cutting rings. Then with cutting rings the direction of movement for the identification of the "cutting edge" are taken into account. Yes after The cutting edge is indicated by the signal "2" or the signal "3" identified.

For lower knives on a lower knife shaft slidably guided are, after grinding, the individual lower knives on the Lower knife shaft pushed on, with the individual lower knives at from the outside accessible Lower knife shaft temporarily by hand approximately to the specified one Position can be advanced. About the Shift device is then using the program of the control device in each case the lower knife into the one specified by the cutting program and shifted position defined by the cutting edge. The necessary Displacement routes essentially result from the hands-free pushing open given and detected by the sensor of the displacement device actual position.

For lower knives on knife holders are fixed, the knife holders remain in the cutting program default setting so that the regrind the lower knife with the knife holder be connected and then via the Sensor of the measuring device that changed through regrinding The actual position of the cutting edge is detected and the knife holder overall over one corresponding engagement means acting on the knife holder is moved so far that the TARGET position of the cutting edge is reached again.

The above detailed Explanation leaves the advantage recognize the procedure. Only one sensor is required on the sliding device for the knife is arranged. The "intelligence" required is total assigned to the programmable control device. Since in the control device on the Programming not only the desired position of the knife is specifiable, but also the characteristic constructive Data of the knives used are taken into account can be is always a detection of the most important position, namely the position of the "cutting edge" immediately possible. This is also a positioning related to the cutting edge of the respective knife possible.

The process doesn't just allow that Positioning of the knives during a new adjustment or for correction regrinding or wear, but also an adjustment during operation with a slowly running material web in the event of a change the editing program. This is then necessary, also for the upper knife to provide a displacement device which is synchronous with the movement the moving device moving a lower knife is moved.

The procedure according to the invention allows it, the displacement device with engagement means, for example in the form of sliding or swiveling driving fingers, which, depending on the design, either on the cutting edge when engaged defined contact area and / or on the back edge defined contact area, but also on the peripheral surface positive or reihschlüssig, can be created. This does not require any complicated precision intervention tools, it is only necessary that the distance between the contact surface of the engagement means and the sensor is predetermined in the measuring device. This distance can be a few millimeters, so always a sufficient Free space between the engagement means and the relevant contact surface on the lower knife guaranteed is. The one in the measuring device fixed distance Δa between the contact surface on the engaging means and the sensor can then be used to determine the from the detection of the actual distance given dimensions for shifting to the TARGET distance become. The engagement means can be designed so that it is optional both on the engagement surface defined by the cutting edge as also on the one defined by the back surface engaging surface can be created. about the direction of movement of the displacement device for displacement of the lower knife to the TARGET distance can always be an exact positioning the cutting edge to its TARGET distance.

Since the sensor is fixed with the one controllable drive provided displacement device is connected, which in turn is connected to the computer and its position the computer signals, there is also the possibility during the To check the knives for wear. The sliding device is then only along the Move the cutter bar or the lower cutter shaft, the engagement means remains inactive and the actual dimensions of the cutting edges become compared with the TARGET dimensions stored in the computer. So that can wear and compliance with a tolerance zone is continuously monitored and quality control be improved.

In a particularly advantageous embodiment the method provides that in each case after the detection the signal "construction edge" of the drive of the displacement device switched to "creep speed" and via the signal "cutting edge" is switched off. This is an exact positioning of the displacement device with precise detection of the "measuring edge" also possible with only one sensor, in particular a laser.

In one embodiment of the method according to the invention it is also provided that by a spin the shifter over the full width of the facility before positioning each Lower Knife the number of lower knives in the work area and their position to the base mark via the one emanating from the sensor Signals in the measuring device detected and that afterwards the individual repositioning lower knife according to the specifications of the editing program is positioned at their TARGET distance from the base mark become. Since, as already described above, the alignment the cutting edges of the individual lower knives with respect to the zero mark are generally known are and for the measuring run the direction of movement can be specified, for example in a direction that is for a slot knife is specified so that each of the "signal 1" by defined the back surface Edge shows and "Signal 2" the one defined by the cutting edge Edge shows, can on the one hand from the number of the sequence of "signal 1" and "signal 2 "not only the number of lower knives in the work area capture, but also the distance of their cutting edge to Zero mark.

After recording this current state in terms of all lower knives in the work area can then shift the individual knives can be made to the new cutting program. Here you can in the given programming of the new cutting program for the individual lower knives Shifts with the least possible Movement path made and positioned in their new TARGET distance become. Because the number and the assignability of the individual lower knives given the zero mark, this procedure allows it also, with a change of the cutting program, excess bottom knives from the work area postpone or additional Lower knife from a "storage area", which is usually in one Storage space in the area of the zero mark is given to introduce additionally.

The invention is based on schematic drawings of an embodiment explained in more detail. It demonstrate:

1 a cutting device with lower knives that can be moved and fixed on a lower knife shaft,

2 the process sequence for the displacement of a lower knife in an enlarged representation.

3 a plate knife,

4 a cutting ring.

In the 1 schematically illustrated device for slitting a web of material has a cutter bar 1 on which several knife holders 2 slidably and fixable, on which each upper knife A, B and C are arranged. The knife holder 2 are designed in the usual way so that the upper knife A, B, C connected to them from the rest position shown by lowering in the direction of the arrow 3 and moving over an adjusting means 2.1 on the knife holder 2 in the direction of the arrow 4 with their cutting edge 5 at the cutting edge 6 an associated lower knife I, II, III are brought into the cutting position, as is the case for the upper knife A and the lower knife 2 is shown. In the example shown, the bottom knives are 2 , II, III in the form of slot knives on a lower knife shaft 7 slidably arranged and fixable. The lower knife shaft 7 stands. with a rotary drive not shown here in connection, so that in the cutting position shown for the lower knife I supports the material web passing through between the upper knives A, B, C and the lower knives I, II, III in the passage of the lower knives I, II, III becomes.

The lower knives I, II, III is a displacement device 8th assigned, by means of a travel drive, not shown here, on a measuring bar 9 is movable. The sliding device 8th is with a measuring bar 9 assigned position transmitter 10 provided, the ner via a connection indicated only schematically with a preferably electronic, programmable and provided with a data memory 12 communicates. Via the connection 11 can with the help of the computer 12 not just the respective position of the displacement device 8th on the measuring bar 9 be detected, but also the travel drive can be controlled so that any predeterminable position of the displacement device 8th on the measuring bar 9 can be started.

The sliding device 8th is with a here only shown schematically, via the computer 12 controllable intervention means 13 provided, which will be described in more detail below in its function. The measuring bar 9 is a zero mark 14 assigned, so that for the cutting edges 6 of the individual lower knives I, II, II the distance l ₁ , l ₂ , l ₃ to the zero mark 14 results.

The sliding device 8th has a sensor 15 on, which is designed for example as a laser beam transceiver, the beam 16 Direction of the arrow perpendicular to the lower knife shaft 7 is aligned, with a reflex from the peripheral surface 17 of a lower knife or the absence of a reflex from the sensor 15 is detected as a signal. The resulting signals are sent to the computer 12 combined with. by the position transmitter 10 to the computer 12 given distance signal forwarded.

Now becomes the shifter 8th on the lower knives I, II and III from the zero mark 14 moving past, if the sensor is designed accordingly 15 , for example corresponding signal formation, a first signal when the beam strikes 16 on through the back surface 18 of the respective lower knife defined edge 19 and a second signal when it reaches the cutting edge 6 ,

One now defines taking into account the direction of movement of the displacement device 8th in the direction of the arrow 20 that from the edge 19 outgoing "signal 1" as signal of the construction edge 19 and then from the cutting edge 6 outgoing "signal 2" as cutting edge, then can be in the computer 12 from the sequence of "Signal 1" and "Signal 2" not only the position of a cutting edge 6 detect, but also from the number of the sequence of these double signals the assignment of the individual lower knife I, II, III in relation to the zero mark and thus identify the lower knife I, II, III itself.

Moving a lower knife I, II, III is based on 2 described for the lower knife I. Here, the lower knife I is to be moved from the fully extended position I _actual to the position I _{target shown in} broken lines.

In the embodiment shown here is the means of intervention 13  on the shifter 8th  as horizontally against the lower knife I  advanceable or radially pivoted fork formed, the mouth width is larger than the distance between the cutting edge 6  and the edge 19  of Lower knife I.

Will the shifter 8th with the intervention device initially withdrawn 13 on the measuring bar 9 in the direction of the arrow 20 , from the zero mark 14 proceeding to lower knife I, then first over the edge 19 the "signal 1" and then from the cutting edge 6 the "signal 2" to the computer 12 issued. Because of the programming of the computer 12 becomes the shifter 8th after "Signal 1" switched to "creep speed" and then via "Signal 2" on the measuring bar 9 positioned exactly so that the distance I _is the cutting edge 6 to the zero mark 14 can be recorded.

Now the means of intervention 13 advanced against the lower knife I, the finger serving as a stop 13.1 with its contact surface 21.1 at a precisely defined distance Δa from that through the cutting edge 6 defined system level on the lower knife I. The distance Δa is a fixed quantity and in the programming of the computer 12 also taken into account.

Now the lower knife I should move out of its position I _Ist with its cutting edge 6 to position I _target on the lower knife shaft 7 be moved, so the shifting device 8th with the help of your computer 12 controlled drive, shown here only schematically 22 in the direction of the arrow 23 postponed. Here is the shifting device 8th first go back the path Δa until your finger 13.1 at the. through the cutting edge 6 defined contact surface comes to the system and can then be up to the distance l _target based on the zero mark 14 to be moved. The entire, from the shifter 8th The displacement distance Δs to be covered is thus l _actual + Δa - l _target . Once the shifter 8th the lower knife I with its cutting edge 6 in its desired position I _target is positioned, the engagement means is 13 moved back so that the lower knife II and the lower knife III can then be moved into its predetermined target position.

However, a lower knife I, II, III should be in relation to the zero mark 14 in the direction of the arrow 20 be moved with a finger 13.2 of the engaging means 13 on the back surface 18 of the lower knife I, II, III comes to rest, then it is necessary, in addition to the distance between the two edges 6 and 19 to the zero mark 14 also the difference in the distance between the two colored edges 19 to each other via the shifting device 8th with the help of the calculator 12 capture. With the accuracy of the laser sensor 15 The distance between the cutting edge can be calculated using this information 6 to the edge 19 grasp exactly. Since here too, the sensor stood at Δb 15 from the contact surface 21.2 of the finger 13.2 is present as a system-inherent measure, the exact displacement path for a lower knife in the direction of the arrow can be determined by detecting the width b of the lower knife 20 determine and via the displacement device 8th implement.

The procedure described above can also be used accordingly for oversize A, B, C, which are on knife holders 2 are attached, which are slidably mounted on a corresponding traverse and lockable.

In such an embodiment, the position of the respective cutting edge is detected by the sensor. The means of intervention 13.3 the shifting device 8.1 then act on the knife holder 2 one, usually one between the knife holder 2 and the cutter bar 1 existing parking brake is released.

If you assign the knife bar 1 , as in 1 indicated, also a displacement device 8.1 to whose travel drive with the computer 12 is linked, then the knife holder 2 the upper knife A, B and C also on the through the cutting edge 6 of the associated lower knife I, II, III predetermined cutting position after activation of a corresponding on the knife holder 2 engaging means 13.3 be moved and positioned.

A sensor system is used for this shifting device 8.1 not required, since all positioning is via the sensor system of the displacement device 8th and the calculator 12 be made. When the travel drive of the displacement device is synchronized 8th and the shifter 8.1 over the calculator 12 can be shifted accordingly the corresponding upper A, B, C and lower knife I, II, III simultaneously.

The term "measuring bar" 9 in the sense of the present invention comprises a running rail for the displacement device 8th and thus links all systems that record the displacement on the running track and the position of the displacement device 8th to a "zero mark" 14 and the positioning control of the travel drive of the displacement device 8th enable.

The drive can be done by a computer 12 Long-controlled stepper motor are formed, which drives an adjusting spindle or an endless belt with which the displacement device 8th connected is.

The travel drive can also be made by a running rail and sliding device 8th formed linear motor are shown.

Also a measuring bar 9 In the true sense it is possible, ie an impulse-giving track, in which corresponding pulses are emitted by the computer via integrated magnets to the travel drive or a sensor connected to it 12 are processed.

3 shows in a partial section a so-called plate knife, which differs from that in 2 Groove knife shown differs only in that both edges 6.1 and 6.2 are designed as cutting edges. At the in 1 specified assignment of the cutting edge 5 of the upper knife A to the cutting edge 6 of the lower knife I represents for the computer 12 only the edge 6.1 the "cutting edge". After the edge has worn 6.1 the knife is just turned. The edge facing away from the upper knife A always forms the "construction edge" 19 ,

4 shows a so-called cutting ring in partial section. This consists of a carrier ring 24 with one shoulder 25 is provided on which a knife ring 26 is postponed. The knife ring 26 is over a locking ring 27 tight.

From the sensor 15 a total of four edges are thus detected when moving past. Only the exposed edge 6.3 of the knife ring 26 then forms the "cutting edge" for the computer 12 , All other contours are design-related edges and represent for the computer 12 thus "construction edges".

It is easy to see that the Direction of movement for signal acquisition is significant.

When moving in the direction of the arrow 28 the signal "2" shows the cutting edge 6.3 on, while signals "1", "3" and "4" indicate the construction edge.

When moving in the opposite direction (arrow 29 ) becomes the cutting edge 6.3 only indicated by the signal "3".

Claims (6)

Method for positioning knives, in particular lower knives (I, II, III), on a device for longitudinally dividing a material web, in each of which an upper knife (A, B, C) cooperate with a lower knife (I, II, III), the at least one with the respective knives to be positioned via engagement means ( 13 ) engageable with a computer ( 12 ) measuring device connected, connected to a controllable drive displacement device ( 8th ) and a sensor ( 15 ), characterized in that with the displacement device (8th ) connected sensor ( 15 ) is moved past the knife (I, II, III) to be positioned and in doing so from the edges ( 6 . 19 ) the knives (I, II, III) each generate a signal in succession, the given assignment of the direction of movement of the sensor ( 15 ) to align the cutting edges ( 6 ) the knife (I, II, III) from the sensor ( 15 ) outgoing signals as "cutting edge" and as "construction edge" in the computer ( 12 ) can be identified and via the signal of one of the edges ( 6 . 19 ) in the computer ( 12 ) is defined as "measuring edge", the actual distance of the "measuring edge" from a base mark ( 14 ) in the computer ( 12 ) is detected (actual distance) and then the knife (I) to be positioned after engagement of the engagement means ( 13 ) of the displacement device ( 8th ) is shifted until the specified distance between the "measuring edge" and the base mark ( 14 ) (TARGET distance) is achieved and that for the knife to be positioned (I, II, III) when determining the displacement distance between the ACTUAL distance and TARGET distance, which is due to a given distance in the direction of displacement between the one with the displacement device (8th) permanently connected sensor ( 15 ) and the means of intervention ( 13 ) on the sliding device ( 8th ) predetermined geometric engagement conditions between the displacement device ( 8th ) and knife to be positioned (I, II, III) in the computer ( 12 ) are taken into account. Method according to claim 1, characterized in that in the computer ( 12 ) the cutting edge ( 6 ) is defined as the "measuring edge". Method according to claim 1 or 2, characterized in that by a measuring run of the displacement device ( 8th ) across the entire width of the device before the individual knives (I, II, III) are positioned, the number of knives (I, II, III) in the work area and their position relative to the basic mark ( 14 ) via the from the sensor ( 15 ) outgoing signals in the computer ( 12 ) is recorded and that the individual new knives (I, II, III) are then repositioned according to the specifications of the cutting program at their TARGET distance to the basic mark ( 14 ) are positioned. Method according to one of claims 1 to 3, characterized in that after the detection of the "construction edge" signal, the drive of the displacement device ( 8th ) is controlled to "creep speed" and switched off via the signal "cutting edge". Method according to one of claims 1 to 4, characterized in that as a sensor ( 15 ) a laser emitter-receiver element is used. Method according to one of claims 1 to 5, characterized in that for positioning upper knives (A, B, C) assigned to the lower knives, a displacement device assigned to the upper knives (A, B, C) and connected to a controllable travel drive ( 8.1 ) is provided, which with the respective upper knife to be positioned (A, B, C) via engagement means ( 13.3 ) can be brought into engagement and by means of which the upper knife (A, B, C) to be positioned is transferred via the computer ( 12 ) the lower knife (I, II, III) is adjusted in relation to the assigned lower knife (I, II, III).