DE102005008337A1 - Device and method for transporting rod-shaped articles - Google Patents

Abstract

The The invention relates to a device for transporting rod-shaped articles, such as As cigarettes, filter rods or the like, comprising an endlessly circulating feeding member (11) and an endless circulating discharge element (12) for the rod-shaped article (20), wherein the feed element (11) and the discharge element (12) one above the other are arranged to form a takeover area (21) to take over the single layer on the feed (11) arranged article (20) on the discharge element (12) at least partially in the transport direction (arrow 19) of the article (20) formed Overlap article stream, which is characterized in that both the feed element (11) and the discharge element (12) as trough bands (13, 17) are formed and in the region of one of the trough belts (17) a vacuum bar (32) is arranged, at least partially over the transfer area (21) extends. Furthermore, the invention relates to a corresponding Method.

Description

The The invention relates to a device for transporting rod-shaped articles, such as. Cigarettes, filter rods or the like, comprising an endlessly circulating feeding member and an endless circulating discharge element for the rod-shaped Article, wherein the feeding element and the discharge element in such a way over each other are arranged to form a takeover area for takeover the single layer on the feed arranged article on the discharge element at least partially in the transport direction of the articles formed from the articles Article stream overlap.

Of Furthermore, the invention relates to a method for transporting rod-shaped Articles, such as Cigarettes, filter rods or the like, comprising the steps: picking up a single-layered article Article stream on a feeding element, Transporting the article stream in a transfer area, sucking the Article to a designed as a trough strip discharge element, by the trough strip Vacuum is applied, transporting the article stream to a Discharge area.

such Devices and methods are used in particular in tobacco processing Industry used. In the manufacture of cigarettes, filter rods or other rod-shaped Articles usually arise one with gaps provided article stream exiting the production machine and a further processing or directly to the packaging machine is supplied. Such a gapy one Article flow is production-related since during the manufacturing process individual articles or groups of articles for testing or testing purposes removed or faulty articles from the produced article stream be discharged. Also can be a short-term machine downtime to an irregular article stream to lead. That means the article stream coming out of the production machine exit, irregular and complete subject can be. This is for Further processing on downstream machines or for direct packaging the article after its production of disadvantage.

This Problem can be solved, for example, that disordered Article currents are processed. The articles are in several layers one above the other and become common cached before further processing or packaging, then in a complete mass flow the further processing or packaging to be supplied. This variant However, it has the disadvantage that the number of articles is unknown and their location is inaccurate. Another problem is that the articles in particular in the lower layers by the stacking but also by the multiple surrender and repackaging be significantly burdened.

Around To avoid these problems were devices with the generic Characteristics developed. The generic device serves as it were the link between production machines, the so-called Makern, and downstream machines, such as e.g. Packaging machines, the so-called Packers. In these known devices and methods according to the The latter principle is the article from the production machine single layer on the feed element filed and in a takeover area transported. The items are loosely on a flat conveyor belt and will be in the takeover area dammed in the transport direction at the end of the feed. In the takeover area the items are from the feed element passed to the discharge element. The discharge element is arranged slightly inclined to the feed, so that the articles in a funnel-shaped Running in lane. In the transport direction at the end of the discharge element, which is designed as a trough band, ie in the area of pent-up Article, has the discharge element a vacuum unit, by means of which the articles to the trough band pulled and around a pulley, within the vacuum unit is arranged to a the feed element be transported opposite arranged discharge area. By damming and sucking the articles in the transfer area will possibly be before gapped Article stream usually merged into a seamless stream of articles.

Indeed this device has the disadvantage that the article on the feeding free, so without leadership lie and thereby slip or slip completely from the feed. Another Disadvantage is that the article in the transport direction on Dammed at the end of the feed what weighs the articles on the one hand and on the other causes that the dissipated Article stream u.U. also with gaps is provided, since no clear allocation between feed element and discharge element in the takeover area given is.

It is therefore an object of the present invention to provide a device by means of which a provided with gaps supplied article stream can be transferred into a gapless article stream to be discharged. Furthermore, it is an object of the invention to provide a simple and reliable method, which supplied from a production, provided with gaps article flow in a lü transfers and discharges the unencumbered article stream.

These Task is firstly by a device with the aforementioned Characteristics solved by that both the feed element as well as the discharge element as trough bands are formed and in the region of one of the trough belts a vacuum bar is arranged, which extends at least partially over the transfer area. As a result, on the one hand, secure guidance or positioning of the Article on the feeder and the discharge element achieved, so that an orderly takeover of the article from the feeding element on the discharge element guaranteed is. Because of that both above and below the article dump bands be provided, namely an oblique position the article especially on the lower trough band prevents whereby so-called cross-pilots are avoided. The hollows continue to set a clear leadership the article is safe during braking and acceleration. The other is ensured by the vacuum bar that is a defined Vacuum distribution over the takeover area extends. This ensures that in the transport direction always the farthest remaining free trough of the upper trough band is occupied, whereby from a possibly gapy Article stream on the feed element a complete one Article flow on the discharge element is formed.

Preferably is the vacuum bar over a connecting piece connected to an air supply, wherein the connecting piece in the area of the rear in the transport direction Deflection pulley of the upper troughed belt is arranged. This training supports the safe takeover the article on the left in the transport direction free hollow on the upper trough belt, because the vacuum in the area of the connecting piece is very high and decreases contrary to the transport direction. With others Words, the suction force in the area of the connecting piece is the largest, so that it is ensured that they transported to the takeover area Article independent of whether they are in a gapless or in a gapy one Supplied article stream be, to the next following the already taken over from the upper troughed tape still free Be sucked position on the upper trough band.

In An advantageous development of the invention is in a receiving area of the lower trough band in the transport direction in front of the upper trough band an element for monitoring of the takeover area incoming article stream arranged. Through the monitoring element can be early be sure of a gap exists in the article stream and how big this gap is. This information can then control the speed especially the upper Trough belt can be used. This always results in the optimal speed ratio between the two trough bands achieved, which in turn reliability in the acquisition the article increases and the formation of the gapless Article stream ensures.

To the Another object is achieved by a method with the aforementioned Solved by steps that several troughs of the upper trough belt simultaneously with vacuum be acted upon, wherein in the transport direction, the last free trough the discharge element with the highest Vacuum is applied and the vacuum from the last decreases free tray opposite to the transport direction. This will Make sure you always have the first free hollow on the top Muldenelement behind the already by previously recorded items occupied troughs is occupied, creating a gapless article flow becomes.

Preferably, the feed element and the discharge element are driven at different velocities v _uM and v _oM , wherein at least v _{oM is controlled} in accordance with v _uM . As a result, the gaps between the articles on the feed element are reliably closed, regardless of the parameters influencing the article flow, such as division, blanks, etc.

Advantageously, the article flow is monitored on the feed element prior to entering the transfer area to determine the number of articles or the size of the gap in the article stream. This facilitates and improves the control of the discharge element or, more precisely, the speed v _oM .

Further preferred and advantageous features, embodiments and method steps emerge from the dependent claims and the description. Particularly preferred embodiments and the method are based on the attached Drawing closer explained. In the drawing shows:

1 a perspective view of a first embodiment obliquely from above in the transport direction with regular or regular division of the feed element and the discharge element,

2 a side view of the embodiment according to 1 .

3 an enlarged detail view A according to 2 .

4 a perspective view of the off according to 1 from obliquely downwards against the transport direction,

5 an enlarged detail B according to 4 .

6 a perspective view of another embodiment obliquely from above in the transport direction with uneven or irregular division of the feed element and the discharge element,

7 a side view of the embodiment according to 6 , and

8th an enlarged detail view C according to 7 ,

The shown devices serve to transport a production stream rod-shaped Article from a production machine to a downstream machine, in particular a packaging machine, wherein the production flow by means of the devices from a gapped article stream in a gapless Article stream is transferred.

In 1 is a device 10 represented, which usually connects to a production machine, in particular a cigarette or Filterstabherstellmaschine. The device 10 includes a feed element 11 and a discharge element 12 , The feeding element 11 and the discharge element 12 are arranged one above the other, wherein the feed element 11 in the embodiment shown below the discharge element 12 is arranged. The feeding element 11 is as a trough band 13 formed, the two juxtaposed feed belts 14 includes. The trough band 13 but can also be designed as a single feed belt or in another conventional manner. The feeder belts 14 are endless and around pulleys 15 and drive rollers 16 guided. The discharge element 12 is also as a trough band 17 educated. The trough band 17 is integrally formed, so undivided, but may alternatively consist of several parallel juxtaposed discharge belts. The trough band 17 is also endless and about a (not shown) pulley and a drive roller 18 guided.

The lower trough band 13 and the upper trough band 17 overlap in the transport direction (arrow 19 ) the item 20 , which are transported transversely to their longitudinal extent, thereby forming a transfer area 21 , The lower trough band 13 protrudes against the transport direction (arrow 19 ) over the upper trough band 17 out, creating a shooting area 22 for receiving the articles 20 on the lower trough band 13 is formed. The upper trough band 17 protrudes in the direction of transport (arrow 19 ) over the lower trough band 13 addition, creating a delivery area 23 for the articles 20 is formed on downstream machines or the like. The recording area 22 , the takeover area 21 and the delivery area 23 lie substantially in a plane one behind the other, wherein the delivery area 23 directly to the takeover area 21 followed. The wording essentially in one level in succession should also explicitly include minor deviations as they exist between takeover areas 21 and delivery area 23 (see eg 3 ) exist. These minor deviations do not change the fact that the areas 21 to 23 aligned in one direction.

The lower trough band 13 has a transport area 24 and a return center 25 on. The same applies to the upper trough band 17 that is a transport area 26 and a return center 27 having. The two transporttrums 24 and 26 are facing each other and parallel to each other at a distance to each other, wherein the distance is preferably slightly larger than the thickness or the diameter of the article to be transported 20 , Alternatively, the transport troughs 24 . 26 also at an acute angle to each other, with the distance between the transport 24 . 26 in transport direction (arrow 19 ) rejuvenated. The lower trough band 13 has a variety of wells 28 on, transversely to the transport direction (arrow 19 ) and optionally with at least one opening for sucking the articles 20 to the trough band 13 or the feeder belts 14 is provided. The upper trough band 17 also has a large number of troughs 29 that correspond to the hollows 28 transverse to the transport direction (arrow 19 ) are aligned. The hollows 29 each have at least one, but preferably three Saugluftöffnungen 30 on, extending across the width of the trough 29 to distribute.

The device 10 is still a vacuum unit 31 assigned. The vacuum unit 31 includes a vacuum bar 32 and a connecting piece 33 which is connected to an air supply (not shown). The vacuum bar 32 is in the area of the upper trough band 17 arranged, between the Transporttrum 26 and the return strand 27 , The vacuum bar 32 extends at least partially over the between the upper trough band 17 and the lower trough band 13 takeover area 21 , In the illustrated and preferred embodiment, the vacuum bar extends 32 almost over the entire takeover area 21 between the pulley (not shown) and the drive pulley 18 , The vacuum bar 32 points to her on the Transporttrum 26 facing bottom 34 openings 35 to pass or Entry of the suction air. The openings 35 , formed in the embodiment shown as slots, are preferably in the transport direction (arrow 19 ) and formed and arranged such that always at least one of the suction air openings 30 regardless of the position of the trough band 17 in terms of the vacuum bar 32 can be acted upon with vacuum.

The connecting piece 33 is preferably at one of the opposite ends of the vacuum bar 32 arranged. In the illustration shown is the connection piece 33 in the region of the deflection roller (not shown) in the transport direction (arrow 19 ) at the end of the takeover 21 arranged. In the transport direction (arrow 19 ) behind the takeover area 21 So in the delivery area 23 in which the vacuum unit 31 ends are means (not shown) which may belong to a downstream device for receiving the trough belt 17 delivered article 20 arranged.

In the area of the lower trough band 13 in transport direction (arrow 19 ) in front of the upper trough band 17 So in the recording area 22 is an element 36 for guiding the articles 20 on the transport area 24 of the lower trough band 13 arranged. The element 36 , which is usually assigned to the production machine, serves the articles 20 after handover from a dispensing drum 37 , which is usually also part of the production machine, not shown, on the lower trough band 13 to hold and guide on this. The element 36 comprises two belts in the embodiment shown 38 on the one hand, around the dispensing drum 37 and on the other hand around pulleys 39 looped and endlessly executed. The belts 38 run at least partially parallel to the transport strand 24 of the lower trough band 13 in such a way that all the articles 20 from the delivery of the delivery drum 37 to the trough band 13 until the transition to the takeover area 21 are managed and held. Preferably, the elastically formed and slightly biased belt 38 in contact with the articles 20 , Due to the diameter of the pulleys 39 on the one hand and the drive roller 18 of the upper trough band 17 On the other hand, the belts are enough 38 not completely to the takeover area 21 approach. For this reason is between the pulleys 39 and the drive roller 18 a simple sheet 40 or the like above the transporting passage 24 arranged that the leadership of the article 20 in this transitional area. The sheet 40 extends as far in the transport direction (arrow 19 ), until the article 20 on the lower trough band 13 through the upper trough band 17 are covered. Instead of the element 36 For example, an additional squeegee may be provided, which is the lower trough band 13 assigned. The squeegee can be used to position / fix the items in the troughs 28 in the area between the dispensing drum 27 and to the takeover area 21 be ensured.

In the recording area 22 is also at least one remedy 41 arranged to monitor the article flow. The middle 41 , preferably a light sensor or the like, is in the area of the transport 24 of the lower trough band 13 arranged such that gaps are detected within the passing article stream and the information for controlling the device 10 can be processed. Another light switch 42 is in the takeover area 21 for error detection of the article flow in the transport area 26 of the upper trough band 17 arranged. Instead of the light scanner, other common detection and / or monitoring elements can be used. Below the transport area 24 of the lower trough band 13 is a band guide 43 arranged for the safe guidance of the transport 24 serves and a sagging of the same effectively prevented.

The velocity v _{uM of} the lower trough band 13 is preferably determined and controlled by the upstream production machine. The speed v _uM corresponds to the speed v _{P of} the production machine or the delivery drum 37 , The speed v _{oM of} the upper trough band 17 depends, among other things, on the velocity v _{uM of} the lower trough band 13 , the number of articles 20 or the size of the gaps between the articles 20 on the lower trough band 13 and the division of the trough bands 13 and 17 , In other words, v _{oM is} a function of v _P , of the mean 41 as well as the division of the trough bands 13 . 17 , For safe acceptance of the articles 20 from the lower trough band 13 on the upper trough band 17 v _{oM is} preferably smaller than v _uM . The division of the lower trough band 13 is preferably greater than the pitch of the upper trough band 17 , However, other division ratios are also possible. The division of the lower trough band 13 is a function of a drum 44 the upstream production machine.

The drum 44 the upstream production machine preferably has an angle encoder 45 or similar. The angle encoder 45 especially for the trough bands 13 . 17 provide relevant information, especially when starting and / or stopping the device 10 required are. In addition, the drum 44 another remedy 46 for monitoring the flow of articles in one of the devices 10 assigned upstream position.

To control the device 10 , namely in particular the speed v _oM , this is on a control unit (not shown) connected, which are in operative connection with the production machine or components, such as a light sensor, the same.

The in the 6 to 8th illustrated embodiment substantially corresponds to the embodiment according to the 1 to 5 , However, the statements differ in that the division of the upper trough band 17 is formed differently. The trough band 17 the embodiment according to the 1 to 5 has a uniform division. That means the hollows 29 all with the same distance from each other, for example, with a distance of 8mm, are formed. The division of the trough band 17 in the 6 to 8th is, however, formed depending on the location. In the embodiment shown, in one "cycle" there are three groups of articles, namely, alternately seven troughs 29 , six hollows 29 and again seven hollows 29 formed successively, wherein between the individual article groups in each case a distance is provided which is greater than the distance, so the division of the article 20 among each other in an article group. With such an arrangement or division, which can also be formed in other article groups and sizes (eg 3-3-3 or 4-3-4-3), it is possible, for example, according to the layers, for example in a packaging with twenty Cigarettes are prepared for packaging or delivered to the exact location.

In the following the method is explained in more detail:
The articles 20 from drums of the production machine to the dispensing drum 37 guided. The single-ply article stream exiting the production machine is usually provided with gaps. With the delivery drum 37 become the articles 20 in the recording area 22 on the lower trough band 13 , more precisely in the hollows 28 the feed belts 14 placed. The articles 20 then be between the transporttrums 24 the feed belts 14 and the belt from above 38 from the recording area 22 in transport direction (arrow 19 ) continuously and with fixed positioning in the hollows 28 to the takeover area 21 transported. The velocity v _{uM of} the lower trough band 13 or the feed belts 14 is determined by the production machine. The upper trough band 17 is through the drive roller 18 driven, and at a speed v _oM , which is smaller than v _uM and in particular of v _uM , the number and size of the gaps on the lower trough band 13 and the division of the trough bands 13 . 17 depends, with the number and size of the gaps by the means 41 is detected or determined.

Inside the device 10 becomes the upper trough band 17 and more precisely the transport area 26 over the vacuum bar 32 subjected to a vacuum. This reduces the vacuum starting from the connection piece 33 contrary to the transport direction, ie opposite arrow 19 always on. In other words, prevails in the area of the connecting piece 33 at the end of the takeover 21 the biggest vacuum. The articles 20 Now be in the transport area 24 into the takeover area 21 under the transport area 26 transported. Through the openings 35 on the bottom 34 the vacuum bar 32 become the suction air openings 30 the hollows 29 subjected to vacuum, wherein the vacuum within the transfer area 21 decreases from a to b (see in particular 2 and 7 ). The articles 20 will be in the takeover area 21 from the upper trough band 17 sucked. As the connection piece 33 at the end of the vacuum bar 32 is arranged and thus the highest vacuum in the transport direction (arrow 19 ) at the end of the takeover 21 is always the first free trough 29 behind the already recorded articles 20 subjected to the highest vacuum. In other words, always the first or foremost article 20 on the lower trough band 13 into the last free hollow 29 of the upper trough band 17 sucked. Due to the different velocities v _oM and v _uM between upper trough band 17 and lower trough band 13 the gaps in the article flow of the lower trough band 13 closed. The vacuum ensures that the items 20 on the upper trough band 17 unlock each other, so that the article flow on the upper trough band 17 is complete.

Different speeds of the lower trough band 13 , different pitches of the trough bands 13 . 17 as well as the number and size of gaps in the article flow are controlled by controlling the speed v _{oM of} the upper trough belt 17 regulated. The gapless article flow on the upper trough band 17 is then removed for further processing, packaging, storage or the like. The speed v _{oM of} the upper trough band 17 is permanently readjusted to accommodate the different constellations, such as a) gapless lower trough band 13 , b) Gaped lower trough band 13 , c) uniform division of the upper trough band 17 (see eg 1 to 5 ) and d) uneven division (see, eg 6 to 8th ) in any combination of a) to d).

Furthermore, the upper trough band 17 For example, in special operating conditions, such as the setup, to be moved backwards by defined amounts. This means that the upper trough band 17 move to the first suction position to the gapless article flow on the upper trough band 17 to ensure, for example, after a long standstill.

Claims (21)

Device for transporting rod-shaped articles, such as cigarettes, filter rods or the like, comprising an endlessly circulating feeding element ( 11 ) and an endless circulating discharge element ( 12 ) for the rod-shaped articles ( 20 ), wherein the feed element ( 11 ) and the discharge element ( 12 ) are arranged one above the other so that they form to form a takeover area ( 21 ) for taking over the single layer on the feed element ( 11 ) ( 20 ) on the discharge element ( 12 ) at least partially in the transport direction (arrow 19 ) of the articles ( 20 ), characterized in that both the feeding element ( 11 ) as well as the discharge element ( 12 ) as trough belts ( 13 . 17 ) are formed and in the region of one of the trough belts ( 17 ) a vacuum bar ( 32 ), which at least partially covers the takeover area ( 21 ). Apparatus according to claim 1, characterized in that the trough band ( 13 ) for feeding a gapped article stream below the trough strip ( 17 ) is arranged for discharging a gapless stream of articles. Device according to claim 1 or 2, characterized in that the lower trough strip ( 13 ) and the upper trough band ( 17 ) in each case a Transporttrum ( 24 . 26 ) and a return section ( 25 . 27 ), whereby the transporttrums ( 24 . 26 ) are opposite each other. Device according to claim 3, characterized in that the transport grooves ( 24 . 26 ) parallel to each other. Apparatus according to claim 3 or 4, characterized in that the vacuum strip ( 32 ) in the area of the transport area ( 26 ) of the upper trough band ( 17 ) is arranged and between a deflection roller of the trough belt ( 17 ) and a drive roller ( 18 ) of the trough band ( 17 ) almost over the entire takeover area ( 21 ). Device according to one of claims 3 to 5, characterized in that the vacuum strip ( 32 ) between the transport area ( 26 ) and the return section ( 27 ) of the upper trough band ( 17 ) is arranged. Device according to one of claims 3 to 6, characterized in that the vacuum strip ( 32 ) on the transport area ( 26 ) of the upper trough band ( 17 ) facing side openings ( 35 ) to the passage of the suction air. Devices according to one of claims 1 to 7, characterized in that each trough ( 29 ) of the upper trough band ( 17 ) at least one, but preferably a plurality of suction air openings ( 30 ) having. Apparatus according to claim 8, characterized in that the openings ( 35 ) in the vacuum bar ( 32 ) are formed and / or arranged such that always at least one of the suction air openings ( 30 ) of the trough band ( 17 ) in the takeover area ( 21 ) can be acted upon with vacuum. Device according to one of claims 1 to 9, characterized in that the vacuum strip ( 32 ) via a connecting piece ( 33 ) is connected to an air supply, wherein the connecting piece ( 33 ) in the area of the transport direction (arrow 19 ) rear pulley of the upper trough belt ( 17 ) is arranged. Apparatus according to claim 10, characterized in that the vacuum starting from the connecting piece ( 33 ) against the transport direction (arrow 19 ) decreases. Device according to one of claims 1 to 11, characterized in that the lower trough band ( 13 ) against the transport direction (arrow 19 ) the item ( 20 ) over the upper trough band ( 17 ) and the upper trough band ( 17 ) in the transport direction (arrow 19 ) the item ( 20 ) over the lower trough band ( 13 protrudes). Apparatus according to claim 12, characterized in that in the region of the lower trough strip ( 13 ) in the transport direction (arrow 19 ) in front of the upper trough band ( 17 ) an element ( 36 ) for guiding the articles ( 20 ) on the transport area ( 24 ) of the lower trough band ( 13 ) is arranged. Device according to claim 13, characterized in that the element ( 36 ) at least one belt ( 38 ), but preferably two endlessly circulating belts ( 38 ). Device according to one of claims 1 to 14, characterized in that in a receiving area ( 22 ) of the lower trough band ( 13 ) in the transport direction (arrow 19 ) in front of the upper trough band ( 17 ) at least one means ( 41 ) to monitor the transfer to the takeover 21 ) incoming article stream is arranged. Device according to one of claims 2 to 15, characterized in that in the transport direction (arrow 19 ) behind the lower trough band ( 13 ) a delivery area ( 23 ) is formed. Apparatus according to claim 16, characterized in that the receiving area ( 22 ), the transfer area ( 21 ) and the delivery area ( 23 ) lie substantially in a plane one behind the other, wherein the delivery area ( 23 ) directly to the takeover 21 ). Device according to one of claims 2 to 17, characterized in that at least the upper trough belt ( 17 ) is assigned a _{control drive} , such that the rotational speed or transport speed v _{oM of} the upper trough belt ( 17 ) in relation to the rotational speed or transport speed v _{uM of} the lower trough strip ( 13 ) is controllable. Method for transporting rod-shaped articles, such as cigarettes, filter rods or the like, comprising the steps of: - picking up a piece of articles ( 20 ), one-ply article flow onto a feed element ( 11 ), - transporting the article stream into a transfer area ( 21 ), - sucking the articles ( 20 ) as a troughed strip ( 17 ) trained discharge element ( 12 ) by attaching to the trough belt ( 17 ) Vacuum is applied, - transporting the article stream to a delivery area ( 23 ), characterized in that a plurality of wells ( 29 ) of the upper trough band ( 17 ) are simultaneously subjected to a vacuum, wherein in the transport direction (arrow 19 ) the last free hollow ( 29 ) of the discharge element ( 12 ) is subjected to the highest vacuum and the vacuum from the last free trough ( 29 ) against the transport direction (arrow 19 ) decreases. A method according to claim 19, characterized in that the feed element ( 11 ) and the discharge element ( 12 ) are driven at different velocities v _uM and v _oM , whereby at least v _{oM is regulated} in coordination to v _uM . Process according to claim 19 or 20, characterized in that the stream of articles on the feed element ( 11 ) before entering the takeover area ( 21 ) is monitored to reduce the number of articles ( 20 ) or to determine the size of the gap in the article stream.