EP2883462A1 - Dispositif de distribution et procédé de garniture d'une machine à fabriquer des tiges de l'industrie de traitement du tabac avec un flux de produit en matériau fibreux enrichi en additifs - Google Patents

Dispositif de distribution et procédé de garniture d'une machine à fabriquer des tiges de l'industrie de traitement du tabac avec un flux de produit en matériau fibreux enrichi en additifs Download PDF

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Publication number
EP2883462A1
EP2883462A1 EP14196977.4A EP14196977A EP2883462A1 EP 2883462 A1 EP2883462 A1 EP 2883462A1 EP 14196977 A EP14196977 A EP 14196977A EP 2883462 A1 EP2883462 A1 EP 2883462A1
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EP
European Patent Office
Prior art keywords
fiber material
channel
classifier
processed
additives
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP14196977.4A
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German (de)
English (en)
Inventor
Matthias Krause
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koerber Technologies GmbH
Original Assignee
Hauni Maschinenbau GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hauni Maschinenbau GmbH filed Critical Hauni Maschinenbau GmbH
Publication of EP2883462A1 publication Critical patent/EP2883462A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24CMACHINES FOR MAKING CIGARS OR CIGARETTES
    • A24C5/00Making cigarettes; Making tipping materials for, or attaching filters or mouthpieces to, cigars or cigarettes
    • A24C5/39Tobacco feeding devices
    • A24C5/394Tobacco feeding devices with an auxiliary feed unit
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24CMACHINES FOR MAKING CIGARS OR CIGARETTES
    • A24C5/00Making cigarettes; Making tipping materials for, or attaching filters or mouthpieces to, cigars or cigarettes
    • A24C5/14Machines of the continuous-rod type
    • A24C5/18Forming the rod
    • A24C5/1892Forming the rod with additives, e.g. binding agent, flavorants

Definitions

  • the invention relates to a distributor device for feeding a tobacco processing machine strand extruder with a product stream consisting of fiber material, comprising a reservoir for receiving the fiber material, a conveyor for transporting the fiber material from the reservoir to a storage shaft, the stowage shaft for forming a stock of the fiber material, a separating device arranged at the end of the stacking shaft for separating the fiber material, a channel for guiding the separated fiber material in the direction of a transverse sight device, the transverse sight device which is designed to separate the fiber material into a portion to be processed and a portion not to be processed by pressurizing the fiber material with compressed air and is arranged, wherein the transverse sight means a reformerdüsenech for separating the portions of the fiber material and a separator channel for transporting the processed portion of the chamfer At least one acceleration section for transporting the portion of the fiber material to be processed to at least one Saugstrang considerer, at least one SaugstrangIFFer for building and transporting a formed
  • the invention further relates to a method for feeding a strand machine of the tobacco processing industry with a product material consisting of fiber material, comprising the steps of: transporting the fiber material from a reservoir to a stowage by means of a conveyor, forming a supply of the fiber material in the stowage, separating the Fiber material by means of a singulator, releasing the fiber material by the singulator and passing the released fiber material through a channel in the region of a transverse sight device, separating the fiber material by means of the transverse sight device into a portion to be processed and a non-processed portion by applying the fiber material with compressed air, transporting of the portion of the fiber material to be processed by means of a classifier nozzle unit through a classifier channel in the direction of an acceleration section, transporting the to be processed Part of the fiber material by means of the acceleration section to at least one Saugstrang considerer, building and transporting the formed from the processed portion of the fiber material strand by means of the Saugstranger,
  • Such spreaders and methods are used in the tobacco processing industry to feed an extruder-enriched product stream of fibrous material, which may consist of tobacco fibers, filter material fibers or blends of the aforementioned fibers, to a stranding machine by separating, screening and then uniformizing the fiber material or any strand-forming Saugstrang makeuper is supplied. So that the additives are not rediscovered during sifting, the additives are fed into the product stream or into the portion of the fiber material to be processed behind the transverse sifter device.
  • fibrous material which may consist of tobacco fibers, filter material fibers or blends of the aforementioned fibers
  • the product flow extends transversely to the conveying direction F over a width B, so that on the output side of the distributor device at the or each suction strand conveyor a strand with increasing in the transport direction T of the or each Saugstrang disposeers thickness builds up by a layered layering.
  • the entire product flow is effectively divided into two sub-streams. More specifically, air flow is created by the compressed air applied by the classifier nozzle unit, which causes the fiber material to divide into a portion to be processed and an unprocessable portion.
  • portions not suitable for processing for example, ribs, foreign matter, or the like, are sorted out by sinking down into the drainage channel or the like. Only the lighter tobacco fibers, filter fibers or the like, which make up the portion suitable for processing, are guided by the air flow into the classifier channel.
  • This proportion suitable for processing is enriched by additives.
  • pourable additives are exemplified granules, tobacco components or the like but also excluded in sifting and then - sometimes called after a processing / comminution - recycled fiber residues.
  • a known distribution device with the features of the preamble of claim 1 and the corresponding method are known from DE 40 35 937 A1 known.
  • the distributor device described therein has for supplying the additives to a delivery line, by means of which the additives, here recirculated tobacco ribs, are passed directly into the rolling space.
  • the known distribution devices and methods for feeding a stranding machine, in particular with existing from tobacco and enriched by additives fiber material have the disadvantage that the additives reach the tobacco mat and reflected from there and are not mixed correctly.
  • the invention is thus based on the object to provide a simple distributor device, by means of which an optimized supply of additives in the product stream formed from to be processed portions of the fiber material is ensured for an individual and high quality strand design.
  • the object continues to be to propose a corresponding method.
  • the feed device for feeding the additives comprises at least one feed channel, which opens directly into the classifier channel.
  • This embodiment of the invention causes the additives to be processed after sifting and before entering the acceleration section with the Mix the proportion of fiber material so that a uniform and individually controllable distribution in the strand is achieved.
  • the additives are given by the inventive design via an injector in the sighted and already accelerated tobacco stream (formed from the portion of the fiber material to be processed). This results in a laterally sharply delimited product stream, which allows an accurate positioning of the additives in the strand. This sharp limitation also prevents loading of the excess, which is separated / trimmed from the bed formed on the suction belt to form the actual strand.
  • a particularly preferred development of the invention is characterized in that the mouth region of each feed channel is arranged in the classifier channel in the conveying direction F of the portion of the fiber material to be processed behind the classifier nozzle unit and the or each feed channel projects at least partially into the classifier channel with its mouth region such that the cross-section Q 1 of the classifier channel is narrowed in the region in which the supply channel opens into the classifier channel.
  • This restriction leads to an increase in the flow rate, so that the energy for entrainment of the additives is increased from the feed channel.
  • the "injector effect" produced by the compressed air or flow velocity is intensified by the constriction in the region of the entry of the additives into the classifier channel.
  • the acceleration section is formed as a rolling room with nozzle cavity, wherein the nozzle cavity in the conveying direction F of the fiber material adjoins and in extension of the classifier channel.
  • This embodiment with a direct transition between the classifier channel and the nozzle channel is particularly suitable for achieving a mixing of additives with the portion of the fiber material suitable for processing.
  • the classifier nozzle unit comprises a caution nozzle, which is arranged in the region of the deflection of the not yet sighted fiber material from the channel into the classifier channel, such that the portion of the fiber material to be processed is transported through the classifier channel in the direction of the acceleration section while the unprocessed portion of the fiber material falls down into the region of recycle and / or discharge.
  • a particularly advantageous embodiment is characterized in that a supply channel is guided through the rolling space and opens into the classifier channel from above, through the intersection of the rolling space boundary separating the rolling space from the classifier channel.
  • a preferred development is characterized in that a feed channel from the opposite side of the rolling chamber of the classifier channel opens under the penetration of the classifier channel wall from below into the classifier channel.
  • each feed channel opening into the sifter channel is curved in its mouth region, such that the mouth opening of the feed channel is directed within the sifter channel in the direction of the rolling space. Due to the fact that the additives already have a predetermined direction when entering the classifier channel, namely in the conveying direction, the "injector effect" can be used particularly effectively, since the additives have to be taken along / entrained almost without further deflection. As a result, the additives are introduced at high speed into the rolling space.
  • a particularly expedient embodiment is characterized in that in the region of the nozzle well, a further feed channel is formed, which opens directly into the rolling space.
  • a further feed channel is formed, which opens directly into the rolling space.
  • the feed channel opening directly into the rolling space is curved in its mouth region, such that the mouth opening of the feed channel is directed within the rolling space in the direction of the suction strand conveyor.
  • a preferred development is characterized in that the or each feed channel extends at least with its mouth region only over part of the width B of the conveying path. That is, the supply channel is (substantially) narrower than the distributor device width or the width B of the conveyor line and thus allows a defined addition of the additives in the strand.
  • the width of the feed or the mouth region determines the distribution of the additives in the strand and thus in the products formed from the strand (for example the cigarettes). This ensures a targeted supply of additives to a defined section / region of the strand.
  • the or each feed channel is formed transversely to the conveying direction F adjustable. As a result, the position of the additives to the suction belt of a Saugstrang makeers be changed.
  • Additives may be incorporated centrally in the strand or e.g. further away from the suction belt.
  • the defined section / area into which the additives are to be positioned within the strand can be varied.
  • the object is also achieved by a method with the steps mentioned above in that the additives are fed via at least one feed channel directly into the classifier channel, so that the additives mix with the portion of the fiber material to be processed before the acceleration section.
  • the additives are passed over a curved mouth region of the or each feed channel in the conveying direction F of the portion of the fiber material to be processed in the classifier channel.
  • the additives are supplied to the portion of the fiber material to be processed via a plurality of feed channels into the classifier channel and the acceleration section.
  • a distributor device is shown, which is designed and equipped for feeding a strand machine of the tobacco-processing industry with a product stream enriched of tobacco fibers and enriched with additives.
  • the distributor device can also be used to feed a multi-strand machine.
  • the distribution device is also designed and equipped for feeding a stranding machine with a product stream enriched in additives consisting of filter fibers or a product stream formed from mixed fibers.
  • the distribution device 10 for feeding a rod making machine of the tobacco processing industry with a product material consisting of fiber material, a reservoir 11 for receiving the fiber material 12, a conveyor 13 for transporting the fiber material 12 from the reservoir 11 to a storage shaft 14, the storage shaft 14 for forming a supply of the fiber material 12, a arranged at the end of the storage jaw 14 separating device 15 for separating the fiber material 12, a channel 16 for guiding the separated fiber material 12 in the direction of a cross-sifting device 17 and the cross-sifting device 17, for separating the fiber material 12 in one to be processed and one not processing portion 12a, 12b is formed and acted upon by pressurization of the fiber material 12 with compressed air.
  • the transverse sight device 17 comprises a separator nozzle unit 18 for separating the portions 12a, 12b of the fiber material 12 and a sifter channel 19 for transporting the portion 12a of the fiber material 12 to be processed.
  • the sifter channel 19 connects the channel 16 to an acceleration section 20.
  • the distributor device 10 further comprises at least an acceleration section 20 for transporting the portion 12a of the fiber material 12 to be processed to at least one suction strand conveyor 21, at least one suction strand conveyor 21 for building and transporting a strand 22 formed from the portion 12a of the fiber material 12 to be processed, and a supply device 23 for feeding pourable additives 24 in the conveying direction F of the fiber material 12 is formed behind the sorterdüsenech 18 in the processed portion 12a of the fiber material 2 and set up.
  • the reservoir 11, the conveyor 13, the storage shaft 14, the singulator 15, the channel 16, the transverse sight device 17 and the acceleration section 20 form a conveying path for the product flow flowing in the conveying direction F with a width B extending transversely to the conveying direction F.
  • This distributor device 10 is characterized in that the feed device 23 for supplying the additives 24 comprises at least one feed channel 25, which opens directly into the classifier channel 19. At least one feed channel 25 is provided, which strikes the portion 12a of the fiber material 12 intended for processing between the classifier nozzle unit 18 and the acceleration section 20.
  • the conveyor 13 may consist of a conveyor belt 26 and a compressed air conveying section 27 (as in FIG. 1 ) be formed.
  • the conveyor belt 26 can also open directly into the storage shaft 14.
  • the fiber material 12 is filled directly into the storage shaft 14.
  • a compressed air conveyor line 27 from the reservoir 11 to the storage shaft 14 is possible.
  • each feed channel 25 can be filled directly with additives 24, for example via a funnel-shaped opening.
  • each feed channel 25 can also be connected to a feed unit, for example a conveyor belt, a guide channel, a compressed air conveyor line or the like, such that the feed materials 24 are actively conveyed into the feed channel 25.
  • the mouth region 28 of each feed channel 25 into the classifier channel 19 is arranged behind the classifier nozzle unit 18 in the conveying direction F of the portion 12a of the fiber material 12 to be processed.
  • the mouth region 28 projects at least partially into the classifier channel 19, in such a way that the cross-section Q 1 in the region in which the supply channel 25 opens into the classifier channel 19 is narrowed.
  • the cross section Q of the classifier channel in the conveying direction F upstream of the mouth region 28 is greater than Q 1 .
  • the Flow rate of the processing-suitable portion 12a of the fiber material 12 in the mouth region 28 is particularly high, whereby a strong "injector effect" is achieved, which means that the additives 24 sucked out by the resulting negative pressure from the supply channel 25 quasi and with the passing by, suitable for processing portion 12a of the fiber material 12 are mixed, even before the acceleration section 20th
  • the acceleration section 20 is formed as a rolling space 29 with nozzle trough 30.
  • the nozzle depression 30 adjoins in the conveying direction F of the fiber material 12 or the portion 12a suitable for processing at and in extension of the sifter channel 19. It is thus formed by the classifier channel 19 and the nozzle well 30, a continuous and barrier-free guide surface for the (from the processed portion 12a of the fiber material 12 and the additives 24) product flow.
  • the classifier nozzle unit 18 comprises a backup nozzle 31, which is arranged in the region of the deflection of the as yet unseen fiber material 12 from the channel 16 into the classifier channel 19.
  • the caution nozzle 31 preferably extends over the entire width B of the conveying path and may be formed from a nozzle slot or a plurality of nozzle openings arranged next to one another.
  • the arrangement of the caution nozzle 31 is provided in such a way, in particular directed horizontally, that the portion 12a of the fiber material 12 to be processed is transported through the classifier channel 19 in the direction of the acceleration section 20 or the nozzle trough 30, while the portion 12b of the fiber material 12 which is not to be processed down into the area of recirculation and / or discharge 32 falls.
  • the discharge 32 may be a collecting container and / or a removal element. The variant of a return is described in more detail below.
  • the acceleration section 20 may also be formed as a suction shaft with nozzle trough.
  • a single feed channel 25 is guided through the rolling space 29.
  • the feed channel 25 penetrates a rolling space 29 separating the rolling chamber 29 from the classifier channel 19 and discharges from above into the classifier channel 19.
  • the supply channel 25 is formed as a closed feed from a filling station through the rolling space into the classifier channel 19.
  • the arrangement and design of the feed channel 25 can of course vary.
  • the feed channel 25 can also be arranged and formed outside the rolling space 29.
  • this is preferably associated with a nozzle element or the like, by means of which the additives 24 of down to the top in the mouth region 36 of the feed channel 34 are conveyed, where the additives are absorbed by the "injector effect" in the formed from the processed portion 12a of the fiber material 12 product stream and mixed with this.
  • the two feed channels 25, 34 may open into the classifier channel 19 at the same time.
  • the number of feed channels 25, 34 can vary and their position can be freely selected along the classifier channel.
  • Each feed channel 25, 34 opening into the sifter channel 19 is curved in its mouth region 28, 36, such that the mouth opening of the feed channel 25, 34 is directed within the sifter channel 19 in the direction of the rolling space 29.
  • the additives 24 supplied by the feed channels 25, 34 are introduced into the classifier channel 19 with a conveying direction F Z or deposited therein, that of the conveying direction F of the product stream or of the product stream formed from the portion 12a of the fiber material 12 to be processed equivalent.
  • a further feed channel 37 is formed and arranged in the region of the nozzle trough 30, which discharges directly into the rolling space 29.
  • This directly into the rolling chamber 29 opening feed channel 37 is formed curved in its mouth region 38, such that the mouth opening of the feed channel 37 is directed within the Wälzraums 29 in the direction of the Saugstrang makeupers 21.
  • the feed channel 37 protrudes with its mouth region 38 into the rolling space 29.
  • the feed channel 37 is preferably associated with a nozzle element or the like, by means of which the additives 24 from bottom to top in the mouth region 38 of the feed channel 37th are eligible.
  • this feed channel 37 is designed and arranged to guide fiber material sorted out during the sifting back at least partially back into the rolling space 29.
  • the heavier ingredients such as ribs, foreign bodies or the like are always selected.
  • lighter components of the fiber material 12 also sink downwards, which are then returned to the portion 12a of the fiber material 12 suitable for processing.
  • the or each of the feed channels 25, 34, 37 may extend over the entire width B of the conveyor line.
  • the or each feed channel 25, 34, 37 extends at least with its mouth region 28, 36, 38 only over a part of the width B of the conveying path, so that the additives 24 do not extend over the entire cross section of the strand 22 but only in individual layers / Layers of strand 22 are distributed.
  • the or each feed channel 25, 34, 37 formed transversely to the conveying direction F, ie in the longitudinal direction of the width B of the conveying path, adjustable. Thus, the positioning of the additives 24 can be determined individually.
  • FIG. 4 is shown schematically how, on the one hand, compared to the width B of the conveyor line smaller width B Z of the feed channel 25, 34, 37 and its mouth region 28, 36, 38 and on the other hand, the adjustment of the feed channel 25, 34, 37 transversely to the conveying direction F. the location and / or distribution of the additives 24 in the strand 22 effects.
  • the strand 22 is driven in the transport direction T from right to left and promoted.
  • the thickness of the strand 22 increases by tobacco is supplied over the entire width B of the conveyor line.
  • the additives 24 are supplied in the example shown only over the width B Z ⁇ B. Thereby, the distribution of the additives 24 in the strand 22 is determined or determined.
  • a position of the feed channel 25, 34, 37 or its mouth region 28, 36, 38 approximately after the first third of the width B of the conveying path causes the additives 24 are located approximately centrally in the strand 22 (see FIG. 4 ).
  • a change in the position of the feed channel 25, 34, 37 or its mouth region 28, 36, 38 transversely to the conveying direction F in the distributor device 10 and thus in the transport direction T or against the same of the strand 22 causes the position of the additives 24 in the strand 22 relative to the suction belt of the Saugstrang devisers 21 or the distance to the same changed. Is the position of the feed channel 25, 34, 37 and its Mouth region 28, 36, 38 in the illustration according to FIG.
  • the position of the additives 24 within the strand 22 is further away from the suction belt, for example, for additives (eg granules) with a small grain diameter.
  • additives eg granules
  • the position of the additives 24 within the strand 22 moves closer to the suction belt.
  • the additives 24 can pass through the feed channel 24, 34 quasi perpendicular to the portion 12a of the fiber material 12 to be processed in the classifier channel 19.
  • the additives 24 are preferably conducted into the sifter channel 19 via a curved mouth region 28, 36 of the or each feed channel 25, 34 in the conveying direction F of the portion 12a of the fiber material 12 to be processed.
  • the additives 24 have the same conveying direction F Z as the portion 12a of the fiber material 12 to be processed with the conveying direction F when entering the classifier channel 19.
  • the same conveying direction F F Z means a substantially identical conveying direction, so that expressly is included when the additives 24 meet at a small angle to the processed portion 12a of the fiber material 12. It is crucial that the main flow directions have the same basic orientation.
  • the additives 24 can also be supplied to the portion 12a of the fiber material 12 to be processed into the classifier channel 19 and the acceleration section 20 simultaneously via a plurality of feed channels 25, 34, 37.
  • the method can be carried out particularly suitably with a distributor device 10, as has been described above in different embodiments.

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  • Cigarettes, Filters, And Manufacturing Of Filters (AREA)
EP14196977.4A 2013-12-11 2014-12-09 Dispositif de distribution et procédé de garniture d'une machine à fabriquer des tiges de l'industrie de traitement du tabac avec un flux de produit en matériau fibreux enrichi en additifs Withdrawn EP2883462A1 (fr)

Applications Claiming Priority (1)

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DE102013113840 2013-12-11

Publications (1)

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EP2883462A1 true EP2883462A1 (fr) 2015-06-17

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EP14196977.4A Withdrawn EP2883462A1 (fr) 2013-12-11 2014-12-09 Dispositif de distribution et procédé de garniture d'une machine à fabriquer des tiges de l'industrie de traitement du tabac avec un flux de produit en matériau fibreux enrichi en additifs

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020113348A1 (fr) 2018-12-03 2020-06-11 Roger Koch Confectionneuse de cigarettes et procédé de fabrication de cigarettes

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4121596A (en) * 1975-08-26 1978-10-24 Molins Limited Cigarette making machines
DE4035937A1 (de) 1989-11-25 1991-05-29 Hauni Werke Koerber & Co Kg Verfahren und vorrichtung zum herstellen eines tabakstranges
DE4240459A1 (de) * 1992-12-02 1994-06-09 Hauni Werke Koerber & Co Kg Tabakverteiler für Zigarettenstrangmaschinen

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4121596A (en) * 1975-08-26 1978-10-24 Molins Limited Cigarette making machines
DE4035937A1 (de) 1989-11-25 1991-05-29 Hauni Werke Koerber & Co Kg Verfahren und vorrichtung zum herstellen eines tabakstranges
DE4240459A1 (de) * 1992-12-02 1994-06-09 Hauni Werke Koerber & Co Kg Tabakverteiler für Zigarettenstrangmaschinen

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020113348A1 (fr) 2018-12-03 2020-06-11 Roger Koch Confectionneuse de cigarettes et procédé de fabrication de cigarettes
CH715607A1 (de) * 2018-12-03 2020-06-15 Koch Roger Zigarettenmaschine und Verfahren zur Herstellung von Zigaretten.
CN113710107A (zh) * 2018-12-03 2021-11-26 罗杰·科克 香烟机和用于制造香烟的方法
CN113710107B (zh) * 2018-12-03 2023-01-17 科克和格赛尔股份公司 香烟机和用于制造香烟的方法

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