EP2862455A1 - Cutting of rod-shaped articles from the tobacco processing industry - Google Patents

Abstract

The invention relates to a method for conveying rod-shaped articles (30) of the tobacco-processing industry, wherein the rod-shaped articles (30) on a conveyor (10), in particular conveyor drum (10) are conveyed transversely and in a cutting position, the rod-shaped article (30 ) are cut by means of at least one cutting device (20) into a plurality of article rod segments (32.1, 32.2) on the conveyor (10). The method is characterized in that before cutting the rod-shaped article (30) in article rod segments (32.1, 32.2), the respective length of the rod-shaped article (30) is determined and depending on the respectively determined length of the rod-shaped article (30) and a Reference length for the rod-shaped article (30) the rod-shaped articles (30) each individually with respect to the cutting position by means of a, preferably activatable or activated, Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) aligned on the conveyor (10) or that before cutting the rod-shaped article (30) in article rod segments (32.1, 32.2), the respective position of the rod-shaped article (30) on the conveyor (10) is determined and depending on the respectively determined position of the rod-shaped article (30) and a reference position for the rod-shaped articles (30) the rod-shaped articles (30) each individuel l are aligned with respect to the cutting position by means of a, preferably activatable or activated, Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) on the conveyor (10). Furthermore, the invention relates to a conveyor drum (10) of the tobacco-processing industry and a machine (M) of the tobacco-processing industry, in particular filter attachment machine (M) or Multifilterherstellmaschine.

Description

The invention relates to a method for conveying rod-shaped articles of the tobacco-processing industry, the rod-shaped articles are conveyed on a conveyor, in particular conveyor drum, transversely and cut in a cutting position, the rod-shaped article by means of at least one cutting device into several article rod segments on the conveyor.

Furthermore, the invention relates to a conveyor drum of the tobacco processing industry, in particular sliding / cutting drum for Queraxialen conveyance of rod-shaped articles, in particular filter rods, wherein on the conveyor drum, a cutting device for cutting the rod-shaped article is provided in article rod segments, and a machine of the tobacco processing Industry, in particular filter attachment machine or Multifilterherstellmaschine.

In machines of the tobacco processing industry, in particular filter attachment machines or Multifilterherstellmaschinen, conveyor drums are used to transport cigarettes, filter pieces or their components.

The conveyance of the aforementioned objects during the manufacture of cigarettes, filters and filter cigarettes is performed in modern production machines of the tobacco processing industry generally by means of conveyor drums, the lateral surface or the drum body for Queraxialen conveyance of rod-shaped objects (cigarettes, filter rods or filter plugs, filter cigarettes) Grooves or receiving troughs for receiving the objects is provided.

In filter tying machines, rod-shaped articles, such as e.g. Tobacco sticks or filter plug or filter rods, transversely promoted in receiving troughs of the conveyor drum. During promotion, these rod-shaped articles of the tobacco processing industry are held in receiving troughs of suction air on the conveyor drums, which bear against corresponding Saugluftöffnungen the receiving troughs. These receiving wells are generally arranged in rows transversely axially one behind the other.

In addition, as conveying drums and sliding / cutting drums are known which consist of a combination of a transport drum, are moved longitudinally on the rod-shaped article, and at least one cutting device or a cutting blade for the transported article. For example, it is off EP-A-1 700 528 Such a sliding / cutting drum known.

In EP-A-1 013 181 a further sliding / cutting drum is disclosed, wherein the smoking article components or filter pieces are moved in the receiving troughs by applying suction air to suction holes of the recordings against longitudinally displaceable stops in a pneumatic manner.

Furthermore, in WO 2008/081340 discloses a cutting system for filter components, wherein the removed from a magazine filter rods are repeatedly passed under a knife, with accumulating Filterstabreste be disposed of.

Based on this prior art, the object of the invention is to improve the cutting process of rod-shaped articles in article rod segments in a simple manner.

This object is achieved by a method for conveying rod-shaped articles of the tobacco-processing industry, wherein the rod-shaped articles are conveyed on a conveyor, in particular conveyor drum, transversely and cut in a cutting position, the rod-shaped article by means of at least one cutting device into several article rod segments on the conveyor , which is further developed in that a) before cutting the rod-shaped article in article rod segments, the respective length of the rod-shaped article is determined and depending on the respectively determined length of the rod-shaped article and a, preferably predetermined reference length for the rod-shaped article, the rod-shaped article be aligned individually with respect to the cutting position by means of a, preferably activatable or activated, Schneidpositionsausrichteinrichtung on the conveyor or that b.) in front of the Sch envy the rod-shaped article in article rod segments determined the respective position of the rod-shaped article on the conveyor is and depending on the respectively determined position of the rod-shaped article and a, preferably predetermined, reference position for the rod-shaped article, the rod-shaped articles are each individually aligned with respect to the cutting position by means of a, preferably activatable or activated, Schneidpositionsausrichteinrichtung on the conveyor.

The invention is based on the idea that rod-shaped articles, e.g. Filter rods are aligned or centered prior to cutting on a conveyor drum using a controller with respect to the cutter so as to allow the respective rod-shaped article to be cut into article rod segments of equal length or article rod segments of predetermined different lengths. Here, the individual length of the rod-shaped article to be cut is taken into account, whereby slight fluctuations of the respective rod length of the rod-shaped articles are compensated in a simple manner, as obtained after the cutting process on the cutting device of the same length article rod segments or article rod segments with predeterminable lengths.

Hereby, an individual cutting position alignment of the rod-shaped articles with respect to the cutting device is carried out by means of the cutting position alignment device for each rod-shaped article to be cut, whereby it is possible, for example, to align the respective rod-shaped article centrally with a cutting blade. For example, using a cutting knife for the cutting device, each rod-shaped article to be cut is individually aligned due to the control according to the invention. For example, the length of the rod-shaped article is determined individually, wherein after comparing the individual length of the rod-shaped article with a predetermined reference length for the rod-shaped article is aligned each cut rod-shaped article on the conveyor. If a deviation of the respective length of the rod-shaped article with respect to the reference length, for example by means of an evaluation detected, the corresponding rod-shaped article in the receiving trough of the conveyor by means of the Schneidpositionsausrichteinrichtung longitudinally axially displaced in the receiving trough.

In addition, it is also provided in the context of the invention that in one embodiment, the position of the rod-shaped article in the receiving trough of the conveyor, in particular conveyor drum, is determined, and wherein in dependence of the determined position of the rod-shaped article and compared to a reference position for the to be cut rod-shaped article, the rod-shaped article is aligned by means of the Schneidpositionsausrichteinrichtung individually in the receiving trough with respect to the cutting device.

The evaluation of the determined position of the rod-shaped article in comparison to the reference position for the rod-shaped article is preferably carried out by means of an evaluation, wherein the evaluation is connected to the Schneidpositionsausrichteinrichtung and corresponding control commands are transmitted to the Schneidpositionsausrichteinrichtung.

Moreover, a preferred embodiment of the method is characterized in that (i) the cutting position of the rod-shaped articles is determined so that the, preferably both outer article rod segments of a cut rod-shaped article are the same length or (ii) that all article rod segments of a cut rod-shaped article are the same are long or (iii) the average error deviation of the article rod segments of a cut rod-shaped article from a setpoint for the article rod segments is minimized or minimal. In this case, it is also provided in the context of the invention that when cutting the rod-shaped articles in differently long article rod segments, the (average) error deviation of the respective article rod segments is minimized by a respective target value for the respective article rod segments or is minimal. According to an alternative, it is also conceivable within the scope of the invention that for differently long article rod segments, the (average) error deviation of the article rod segments corresponding to the percentage portions of the article rod segments on the entire length of the (cut) article rod is minimal.

For example, using only a cutting blade for the cutting device, it is possible for a rod-shaped article to be cut to be centered with respect to the one cutting blade. This results in two equally long article rod segments. When using two or more cutting blades for cutting an article rod in three or more article rod segments, it is possible due to the individual alignment of the rod-shaped articles according to the invention that the two outer article rod segments after cutting have the same rod length. Due to the inventive positioning of the rod-shaped article before the cutting process is achieved that less waste and defective products are manufactured on a machine of the tobacco processing industry.

In addition, it is provided in a development of the method that the length of the rod-shaped article on the conveyor, in particular conveyor drum, by means of a sensor, preferably an optical sensor, is determined or the position of the rod-shaped article on the conveyor, in particular conveyor drum, by means of a, preferably optical, sensor is determined.

In addition, the method is characterized in a further method step in that prior to determining the length of the rod-shaped article or before determining the position of the rod-shaped article on the conveyor, the rod-shaped articles are aligned with respect to a lateral stop. Only after the alignment of the rod-shaped article on, preferably stationary, lateral stop as a reference position in the receiving troughs, the length or position of the rod-shaped article on the conveyor, in particular conveyor drum, determined, wherein due to the fixed lateral stop on the conveyor or conveyor drum a fixed attachment point for the rod-shaped article is precisely defined. As a result, it is possible, for example, to arrange a sensor in the area of the head ends of the rod-shaped articles facing away from the lateral stop in order to determine the length or the position of the article rods before the cutting operation. After determining the length or position of the rod-shaped articles by means of the sensor, the rod-shaped articles are aligned in the corresponding, individual cutting position before being fed to the cutting device. As a result of the active positional alignment of the rod-shaped articles according to the invention, the rod-shaped articles are displaced longitudinally into the receiving cavities of the conveying device or the conveying drum.

Furthermore, it is advantageously provided in the method that the rod-shaped article formed by means of a highly dynamic actuator, in particular piezoceramic actuator, more particularly piezoelectric linear actuator, formed Schneidpositionsausrichteinrichtung be aligned on the conveyor. For example, using a piezo linear actuator, it is achieved that the rod-shaped articles are centered prior to the cutting process with respect to one or more cutting knives centered in the receiving cavities by a longitudinal axial displacement. Here, the, preferably stationary, actuator is arranged laterally on the receiving troughs of the conveyor or the conveyor drum, wherein the actuator is arranged so as to perform a linear movement in the longitudinal axial direction during the transverse axial promotion of the rod-shaped article.

In one alternative, the cutting position means comprises two preferably highly dynamic actuators located opposite one another, the actuators in the invention in particular co-operating to align an article rod to be cut by a longitudinal axial displacement by means of the actuators.

In addition, in the method, as the positions of the rod-shaped articles after aligning the rod-shaped articles by means of a lateral stopper, the position of a head end of the rod-shaped articles or the positions of both head ends of the rod-shaped articles are respectively determined.

Preferably, the rod-shaped articles are conveyed on a push / cut drum and cut into article bar segments. The sliding / cutting drum is e.g. Part of a filter feed device.

Furthermore, the object is achieved by a conveyor drum of the tobacco-processing industry, in particular sliding / cutting drum, for the transverse-axial conveying of rod-shaped articles, in particular of filter rods, wherein on the conveyor drum a cutting device for cutting the rod-shaped article is provided in article rod segments, in particular the conveyor drum is designed for carrying out the method described above, which is further developed by a.) With respect to the conveying direction of the rod-shaped article the conveying drum in front of the cutting device is provided with a sensor device for determining the length of the respective rod-shaped articles and a cutting position alignment device which is preferably activatable or activated for aligning the rod-shaped articles with respect to the cutting position of the rod-shaped articles on the cutting device, the cutting position alignment device being arranged in such a way that the rod-shaped articles depending on the respective determined length of the rod-shaped article and a reference length for the rod-shaped article each individually with respect to the S or b.) with respect to the conveying direction of the rod-shaped articles in front of the cutting device, a sensor device for determining the position of the rod-shaped articles and a, preferably activatable or activated, Schneidpositionsausrichteinrichtung for aligning the rod-shaped articles with respect to the cutting position of the rod-shaped article is provided on the cutting device, wherein the Schneidpositionsausrichteinrichtung is arranged such that the rod-shaped articles depending on the respectively determined position of the rod-shaped article and a reference position for or for all rod-shaped articles, the rod-shaped articles each individually aligned with respect to the cutting position on the cutter become.

Furthermore, in one embodiment, the conveying drum is further provided that an evaluation device is provided, wherein the evaluation device with the sensor device for determining the Length or the position of the rod-shaped article and with the Schneidpositionsausrichteinrichtung for aligning the rod-shaped article is arranged, wherein the evaluation device is arranged such that the cutting position for the rod-shaped articles to be cut is determined such that (i) the, preferably both, external (Ii) all article rod segments of a cut rod-shaped article are the same length or (iii) the averaged error deviation of the article rod segments of a rod-shaped article from a predetermined setpoint for the article rod segments is minimized or minimized.

Moreover, it is preferred in the conveying drum that with respect to the conveying direction of the rod-shaped article on the conveyor drum in front of the sensor device at least one lateral stop for the rod-shaped article or two longitudinally spaced apart lateral stops are provided for the rod-shaped article, so that before the determination the length of the rod-shaped articles or before determining the position of the rod-shaped articles which are to be cut rod-shaped articles are positioned with a side at a head end in the receiving wells, so that it is possible using a sensor in the area of the lateral stop remote head ends of the rod-shaped article is arranged. This results in a simplified structure of the control device for actively controlled positioning of the rod-shaped article on the conveyor or the conveyor drum prior to cutting the rod-shaped article in article rod segments.

In addition, in a further development, the conveyor drum is characterized in that the sensor device as an optical sensor and / or the Schneidpositionsausrichteinrichtung as a highly dynamic actuator, in particular piezoceramic actuator on in particular piezoelectric linear actuator is formed.

Furthermore, the object is achieved by a machine of the tobacco processing industry, in particular filter attachment machine or Multifilterherstellmaschine, with a conveying drum of the tobacco processing industry described above. To avoid repetition, reference is expressly made to the above statements.

Further features of the invention will become apparent from the description of embodiments according to the invention together with the claims and the accompanying drawings. Embodiments of the invention may satisfy individual features or a combination of several features.

Fig. 1

schematisch eine Fördertrommel für eine Trommelanordnung einer beispielhaften Einrichtung zum Herstellen von Filtersegmenten,

Fig. 2

schematisch eine Fördertrommel für eine Trommelanordnung einer Einrichtung zum Herstellen von Filtersegmenten gemäß einer weiteren Ausführungsform und

Fig. 3

schematisch eine Fördertrommel für eine Trommelanordnung einer Einrichtung zum Herstellen von Filtersegmenten gemäß einer dritten Ausführungsform.

The invention will be described below without limiting the general inventive concept using an exemplary embodiment with reference to the drawing, reference being expressly made to the drawing with respect to all in the text unspecified details of the invention. It shows:

Fig. 1

1 schematically shows a conveyor drum for a drum arrangement of an exemplary device for producing filter segments,

Fig. 2

schematically a conveyor drum for a drum assembly of a device for producing filter segments according to another embodiment and

Fig. 3

schematically a conveyor drum for a drum assembly of a device for producing filter segments according to a third embodiment.

In the following figures, identical or similar elements or corresponding parts are provided with the same reference numerals, so that a corresponding renewed idea is dispensed with.

In FIG. 1 schematically is a plan view of a conveyor drum 10 for transverse axial conveying of filter rods 30 shown. The conveyor drum 10 is for example part of a filter feeder 1 of a schematically designated Filteransetzmaschine M. In a further embodiment, the conveyor drum 10 may also be part of a conveyor of another machine of the tobacco processing industry, such as a Multifilterherstellmaschine for the production of multifilaments of several multi-segments.

The filter feed device 1 is designed such that filter segments are produced from filter rods by a cutting process.

For this purpose, a cutting blade 20 is arranged on the conveying drum 10 in order to cut filter rods 30 (as a rod-shaped article) through a central cut into filter segments 32.1, 32.2 (as an article rod segment). The filter rods 30 are removed, for example, from a (not shown here) filter rod magazine and then transferred to the conveyor drum 10, wherein the filter rods 30 are transversely promoted transversely in the (not shown here) receiving troughs of the conveyor drum 10.

In Fig. 1 is the direction of rotation or conveying direction of the conveyor drum 10 schematically indicated by the arrow D. After arrangement of the filter rods 30 in the formed on the peripheral surface receiving troughs the filter rods 30 are conveyed in the direction of the cutting blade 20. During their transverse-axial promotion on the conveyor drum 30, the filter rods 30 are conveyed in the direction of a first lateral stop 12. The stop 12 has a chamfer or ramp 14, so that when touching contact of the stop 12 facing the head ends of the filter rods 30, the filter rods 30 perform a longitudinal axial movement. At the in Fig. 1 illustrated embodiment, the filter rods 30 perform by the contact with the stationary stop 12 a longitudinal axial movement within the receiving wells to the right.

After the longitudinal axial displacement by the first stop 12, the filter rods 30 are brought relative to the conveying direction D in contact with a provided on the other side of the conveyor drum 10 second stationary stop 16, which has a ramp 18, so that the filter rods 30 through the ramp 18 perform a longitudinal axial movement in the opposite direction. By the contact of the filter rods 30 with the ramp 18 of the second stationary stop 16, the filter rods perform a longitudinal axial movement to the left. The stops 12 and 16 are fixedly disposed on the conveyor drum 10, thereby ensuring that when contacting the filter bars 30 with the second ramp 18 of the second stop 16, the filter rods have a predetermined normalized, i. take exactly defined position.

After the orientation of the filter rods 30 through the first and second stop 12, 16, the filter rods 30 are further promoted cross-axial, so that the remote from the second stop 16 head ends of the filter rods 30 are conveyed past a arranged on the conveyor drum 10 sensor 40, wherein means of Sensor 40, which is preferably designed as an optical sensor, the respective End of the stop 16 facing away from the head end of the filter rods 30 is detected, whereby the length of the filter rods 30 is individually determinable. As a result, the exact length of the filter rods 30 is determined.

The area designated A on sensor 40 is in Fig. 1 in the left area shown in an enlargement. Due to the exact orientation of the filter rods, a length measurement of the filter rods 30 is possible by the sensor 40. The measured values for the length determination are transmitted by the sensor 40 to an evaluation device 42, wherein in the evaluation device 42, a comparison of the detected length of the filter rods 30 takes place with a target value for the filter rods 30.

On the basis of the comparison, corresponding control commands are transmitted from the evaluation device 42 to a piezo linear actuator 44, so that a lifting body 46 actuated by the linear actuator 44 executes strokes in the longitudinal axial direction or parallel to the axis of rotation of the conveyor drum 10. As a result of the linear lifting movement of the lifting body 46, the filter rods 30 conveyed past the lifting body 46 are displaced longitudinally axially and centered in relation to the cutting blade 20, so that the filter rods 30 are each cut centrally. The cut by the cutting blade 20 of the filter rods 30 filter segments 32.1, 32.2 are the same length.

By means of the sensor 40, the evaluation device 42 and the linear actuator 44, a control device is formed, whereby an actively controlled positioning of a filter rod 30 or the filter rods 30 before cutting by the cutting blade 20 is made possible. Due to the active and controlled orientation of the filter rods 30 by means of the actuated lifting body 46 of the linear actuator 44th the filter rods 30 are aligned centered.

According to the invention, in this case each filter rod 30 conveyed on the conveyor drum 10 is aligned individually with the length of the cutting blade 20 as a function of its length, as a result of which the filter segments 32.1, 32.2 obtained have the same length. This makes it possible to compensate for variations in length of a single filter rod within a tolerance range in a simple manner.

FIG. 2 schematically shows a plan view of another conveyor drum 10 for the transverse axial conveying filter rods 30 according to another embodiment. After arranging the filter rods 30 in the receiving cavities formed on the peripheral surface, the filter rods 30 are conveyed in the direction of the cutting blade 20 in accordance with the conveying direction designated by the arrow D. The cutting blade 20 is arranged according to the illustrated embodiment such that the filter rods 30 are cut centrally.

During their transverse-axial promotion on the conveyor drum, the filter rods 30 are supported in the direction of the arranged on both sides of the receiving troughs of the conveyor drum 10 lateral stops 12 and 16, wherein the stops 12 and 16 are fixedly arranged on the conveyor drum 10. The lateral stops 12 and 16 are preferably arranged at a distance from each other which is slightly larger than the length of the filter rods to be cut, so that the filter rods 30 on the conveyor drum 10 between the stops 12 and 16 passed or past. By referring to the conveying direction D of the conveyor drum 10 front ramps 14 and 18 of the stops 12, 16 and bevels are in contact with the filter rods 30 in the receiving cavities longitudinally moved, so that the filter rods 30th subsequently conveyed between the stops 12 and 16.

Due to the ramps 14 and 18 and the stops 12 and 16, the filter rods 30 are pre-positioned. Subsequently, after a pre-alignment or pre-positioning of the filter rods by the stops 12 and 16, the filter rods continue to be conveyed, so that the respective head ends of the filter rods 30 are each conveyed past a conveyor drum 10 arranged on the sensor 40.1, 40.2 for the respective head or both ends of the filter rods become.

In this case, the respective head end of the filter rods or the positions of the two head ends are detected by means of the sensors 40.1, 40.2 for the head ends of the filter rods, which are preferably each designed as optical sensors, whereby the length of the filter rods 30 is determined individually. Thus, the precise or exact length of the filter rods 30 is determined in each case.

The areas labeled A1 and A2 each show in Fig. 2 in the left and right area of the sensors 40.1, 40.2, an enlargement of the circular marked points. As a result of the exact determination of the positions of the head ends or determination of the length of the filter rods, the position of the filter rods 30 with respect to the cutting blade 20 can then be determined. The measured values of the sensors 40.1, 40.2 are transmitted from the sensors 40.1, 40.2 to the evaluation device 42, the length of the filter rods 30 being determined in each case on the basis of the measurement signals of the sensors 40.1, 40.2. Subsequently, the length of the filter rods 30 is compared with a desired value for the filter rods 30.

Depending on the comparison of the length of the filter rods with the setpoint then corresponding control commands from the Evaluation device 40 transmitted to the provided on both sides of the conveyor drum 10 piezo linear actuators 44.1, 44.2, so that the actuated by the linear actuators 44.1, 44.2 lifting 46.1, 46.2 stroke movements in the longitudinal axial direction or parallel to the axis of rotation of the conveyor drum 10 run. Here, the lifting elements 46.1, 46.2 are preferably moved simultaneously in the longitudinal axial direction.

Due to the linear lifting movements of the lifting bodies 46.1, 46.2 arranged on both sides, the filter rods 30 conveyed past the lifting bodies 46.1, 46.2 are centrally aligned longitudinally with respect to the cutting blade 20, so that subsequently the filter rods 30 are cut centrally by the cutting blade 20 after alignment. The cut by the cutting blade 20 of the filter rods 30 filter segments 32.1, 32.2 are according to the embodiment in Fig. 2 of equal length.

Using the sensors 40.1, 40.2, the evaluation device 42 and provided for each head end of the filter rods 30 linear actuators 44.1, 44.2, a control device is formed or provided, whereby an actively controlled positioning of the filter rods 30 is realized before cutting by the cutting blade 20 , As a result of the active, controlled orientation of the filter rods 30 by means of the both sides of the actuatable lifting body 46.1, 46.2 of the linear actuators 44.1, 44.2, the filter rods 30 centered with respect to the cutting blade 20 are aligned. In this case, in the context of the invention, in each case one linear actuator and one lifting actuator operable by the linear actuator are provided for each of a head end of the filter rods 30 to be cut.

In Fig. 3 schematically a plan view of a conveyor drum 10 for the transverse axial conveying of filter rods 30 is shown, wherein the Embodiment illustrated in this figure with respect to in Fig. 2 illustrated embodiment is modified. In this case, according to this embodiment, the filter rods 30 are cut in such a way after the orientation of the filter rods 30 that by means of the cutting blade 20 two differently long filter segments 32.1, 32.2 are obtained. Here are analogous to those in Fig. 2 illustrated method steps by the determination of the exact length of the filter rods 30 through the filter rods 30 by means of the evaluation device 42 and the linear actuators 44.1, 44.2 and by the linear actuators 44.1, 44.2 respectively actuated lifting elements 46.1, 46.2 individually aligned such that the error deviations of the filter segments 32.1, 32.2 are minimized or minimal from the respective setpoint for the filter segments 32.1, 32.2. As a result of the orientation of the filter rods 30, the filter rods 30 are aligned individually with respect to the non-centrally disposed cutting blade 20 so that the respective filter segments 32.1, 32.2 differ in length, the length deviations of the individual filter segments 32.1, 32.2 compensating within a tolerance range become.

All mentioned features, including those of the drawing alone to be taken as well as individual features that are disclosed in combination with other features are considered alone and in combination as essential to the invention. Embodiments of the invention may be accomplished by individual features or a combination of several features. In the context of the invention, features which are identified by "particular" or "preferably" are to be understood as optional features.

LIST OF REFERENCE NUMBERS

1

Filterzuführeinrichtung

10

conveyor drum

12

attack

14

ramp

16

attack

18

ramp

20

cutting blade

30

filter rod

32.1, 32.2

filter segment

40, 40.1, 40.2

sensor

42

evaluation

44, 44.1, 44.2

Linear Actuator

46, 46.1, 46.2

lifting body

D

conveying direction

M

filter attachment

Claims (12)

A method for conveying rod-shaped articles (30) of the tobacco-processing industry, wherein the rod-shaped articles (30) on a conveyor (10), in particular conveyor drum (10), are conveyed transaxially and in a cutting position, the rod-shaped article (30) by means of at least one Cutting device (20) in several article rod segments (32.1, 32.2) on the conveyor (10) are cut, characterized in that prior to cutting the rod-shaped article (30) in article rod segments (32.1, 32.2) the respective length of the rod-shaped article (30) is determined and depending on the respective determined length of the rod-shaped article (30) and a reference length for the rod-shaped article (30) the rod-shaped article (30) each individually with respect to the cutting position by means of a preferably activatable or activated, Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) on the conveyor (10) are aligned or that prior to cutting the rod-shaped article (30) in article rod segments (32.1, 32.2), the respective position of the rod-shaped article (30) on the Conveying device (10) is determined and, depending on the respective determined position of the rod-shaped article (30) and a reference position for the rod-shaped article (30) the rod-shaped articles (30) each individually with respect to the cutting position by means of a preferably activated or activated, Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) on the conveyor (10) are aligned. A method according to claim 1, characterized in that the cutting position of the rod-shaped article (30) is determined such that, preferably both, outer article rod segments (32.1, 32.2) of a cut rod-shaped article (30) are the same length or that all article rod segments (32.1 , 32.2) of a cut rod-shaped article (30) are of equal length or that the averaged error deviation of the article rod segments (32.1, 32.2) of a cut rod-shaped article (30) from a target value for the article rod segments (32.1, 32.2) is minimized or minimal. A method according to claim 1 or 2, characterized in that the length of the rod-shaped article (30) on the conveyor (10), in particular conveyor drum (10), by means of a sensor (40, 40.1, 40.2) is determined or the position of the rod-shaped article (30) on the conveyor (10), in particular conveyor drum (10), by means of a sensor (40, 40.1, 40.2) is determined. Method according to one of claims 1 to 3, characterized in that prior to determining the length of the rod-shaped article (30) or prior to determining the position of the rod-shaped article (30) on the conveyor (10) the rod-shaped article (30) with respect be aligned with a lateral stop (12, 16). Method according to one of claims 1 to 4, characterized in that the rod-shaped article (30) by means of a highly dynamic actuator, in particular piezoceramic actuator, in particular piezoelectric linear actuator, formed Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) on the conveyor (10) are aligned. Method according to one of claims 1 to 5, characterized in that as positions of the rod-shaped articles (30) after aligning the rod-shaped articles (30) by means of a lateral stop (12, 16) the position of a head end of the rod-shaped article (30) or the positions of the two head ends of the rod-shaped articles (30) are respectively determined. Method according to one of claims 1 to 6, characterized in that the rod-shaped articles (30) on a sliding cutting drum (10) are conveyed and cut. Conveying drum (10) of the tobacco processing industry, in particular sliding cutting drum (10), for the transverse axial conveying of rod-shaped articles (30), in particular of filter rods, wherein on the conveyor drum (10) has a cutting device (20) for cutting the rod-shaped article (30) in article bar segments (32.1, 32.2) is provided, in particular for carrying out the method according to one of claims 1 to 7, characterized in that with respect to the conveying direction of the rod-shaped article (30) on the conveyor drum (10) in front of the cutting device (20) comprises a sensor device (40, 40.1, 40.2) for determining the length of the respective rod-shaped articles and a, preferably activatable or activated, Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) for aligning the rod-shaped articles (30) with respect to the cutting position the rod-shaped article (30) on the cutting device (20) is provided, wherein the Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) is arranged such that the rod-shaped article (30) depending on the respectively determined length of the rod-shaped Article (30) and a reference length for the rod-shaped articles (30) are each individually aligned with respect to the cutting position or in that, in relation to the conveying direction of the rod-shaped articles (30) in front of the cutting device (20), a sensor device (40, 40.1, 40.2) for determining the position of the rod-shaped articles (30) and a cutting position alignment device (44, 44.1), preferably activatable or activated , 44.2, 46, 46.1, 46.2) for aligning the rod-shaped articles (30) with respect to the cutting position of the rod-shaped articles (30) on the cutting device (20), wherein the cutting position alignment device (44, 44.1, 44.2, 46, 46.1 , 46.2) is set up such that the rod-shaped articles (30), depending on the respectively determined position of the rod-shaped articles (30) and a reference position for the rod-shaped articles (30) the rod-shaped articles (30) each individually with respect to the cutting position the cutting device (20) are aligned. Conveying drum (10) according to claim 8, characterized in that an evaluation device (42) is provided, wherein the evaluation device (42) with the sensor device (40, 40.1, 40.2) for determining the length or the position of the rod-shaped article (30) and is connected to the Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1, 46.2) for aligning the rod-shaped article (30), wherein the evaluation device (42) is arranged such that the cutting position for the rod-shaped article (30) is determined in that the, preferably both, outer article rod segments (32.1, 32.2) of a cut rod-shaped article (30) are of equal length or that all article rod segments (32.1, 32.2) of a cut rod-shaped article (30) have the same length or the average error deviation of the article rod segments (32). 32.1, 32.2) of a rod-shaped article (30) from a setpoint for the article rod segments (32.1, 32.2) minimized or minimized i st. Conveying drum (10) according to claim 8 or 9, characterized in that with respect to the conveying direction of the rod-shaped article (30) on the conveyor drum (10) in front of the sensor device (40, 40.1, 40.2) at least one lateral stop (12, 16). for the rod-shaped articles (30) or two longitudinally spaced-apart lateral stops (12, 16) are provided for the rod-shaped article (30). Conveying drum (10) according to any one of claims 8 to 10, characterized in that the sensor device (40, 40.1, 40.2) as an optical sensor (40, 40.1, 40.2) and / or the Schneidpositionsausrichteinrichtung (44, 44.1, 44.2, 46, 46.1 , 46.2) as a highly dynamic actuator, in particular piezoceramic actuator, more particularly piezoelectric linear actuator, are formed. Machine (M) of the tobacco-processing industry, in particular a filter attachment machine (M) or a multifilament-producing machine, with a conveying drum (10) of the tobacco-processing industry according to one of claims 8 to 10.

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