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WO2006019026A1 - Dispositif de configuration menant une toile d’emballage à une machine fabriquant des tiges - Google Patents

Dispositif de configuration menant une toile d’emballage à une machine fabriquant des tiges Download PDF

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Publication number
WO2006019026A1
WO2006019026A1 PCT/JP2005/014679 JP2005014679W WO2006019026A1 WO 2006019026 A1 WO2006019026 A1 WO 2006019026A1 JP 2005014679 W JP2005014679 W JP 2005014679W WO 2006019026 A1 WO2006019026 A1 WO 2006019026A1
Authority
WO
WIPO (PCT)
Prior art keywords
packaging web
path
guide
roller
web
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.)
Ceased
Application number
PCT/JP2005/014679
Other languages
English (en)
Japanese (ja)
Inventor
Masayoshi Saito
Shinji Ishii
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.)
Japan Tobacco Inc
Original Assignee
Japan Tobacco Inc
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 Japan Tobacco Inc filed Critical Japan Tobacco Inc
Publication of WO2006019026A1 publication Critical patent/WO2006019026A1/fr
Anticipated expiration legal-status Critical
Ceased 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
    • A24C5/14Machines of the continuous-rod type
    • A24C5/20Reels; Supports for bobbins; Other accessories
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D3/00Tobacco smoke filters, e.g. filter-tips, filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces for cigars or cigarettes
    • A24D3/02Manufacture of tobacco smoke filters
    • A24D3/0275Manufacture of tobacco smoke filters for filters with special features
    • A24D3/0287Manufacture of tobacco smoke filters for filters with special features for composite filters

Definitions

  • the present invention relates to a rod manufacturing machine, that is, a setup device that guides a packaging web through the lapping device before a smoking rod such as a cigarette rod or a filter rod is manufactured by the rod manufacturing machine.
  • a composite filter is known as a filter for a cigarette, and the composite filter includes a plurality of types of cylindrical filter elements.
  • the composite filter is a dual filter
  • the dual filter includes a plain filter element and a charcoal filter element, and these filter elements are integrally connected by a molding paper.
  • a rod manufacturing machine for manufacturing the dual filter described above is disclosed in, for example, Japanese Patent Application Laid-Open No. 2003-24035.
  • the rod making machine of this publication first forms an element column continuously, this element column including alternating plain filter elements and charcoal filter elements.
  • Such element columns are supplied with the packaging web to the lapping machine of the rod making machine.
  • the wrapping device continuously wraps the element column with the packaging web to form a composite element rod, and the formed composite element rod is delivered by the wrapping device force. Thereafter, the composite element rods are cut into predetermined lengths and formed into individual composite filter rods.
  • the composite filter rod is fed to a rod making machine force filter attachment machine, which produces a filter cigarette from the composite filter rod and cigarette rod.
  • the technology of a cigarette manufacturing machine disclosed in Japanese Patent Laid-Open No. 8-205842 can be applied to the above-described rod manufacturing machine.
  • the cigarette manufacturing machine disclosed in the publication includes a duplex forming path, and cigarette rods are manufactured through the respective forming paths.
  • Preparation for starting the rod making machine is performed by passing the packaging web through the wrapping apparatus. Including picking up work.
  • various molding guides and devices essential for molding the composite filter rod are arranged on the molding path of the wrapping device, these molding guides and devices are arranged before the packaging web is set up. Forming path of upper force Must be retracted. For this reason, it is not easy to set up the packaging web.
  • the forming guide and the device are supported by the wrapping device so as to be rotatable between an operating position on the forming path and a retracted position positioned behind the wrapping device.
  • a rod manufacturing machine to which the present invention is applied has a forming path, a guide path disposed in the vicinity of the starting end of the forming path, and a web path for supplying a packaging web to the forming path via the guide roller.
  • a wrapping device including a supply device that feeds a filling member through a guide roller toward the forming path, superimposes the filling member on the packaging web in the forming path, and a guillata tape that runs along the forming path And a wrapping device for continuously forming the rod encased by the packaging web when the filling member and the packaging web pass along the molding path by the travel of the guillotine tape.
  • the setup device of the present invention is an introduction line that guides the packaging web toward the forming path when preparing to start the rod manufacturing machine, and an upstream path that guides the packaging web upstream of the guide rollers.
  • An introduction line having a downstream path for guiding the packaging web together with the filling member downstream from the guide roller, a holding means disposed in the upstream path and releasably holding the leading end of the packaging web, A delivery means for delivering the packaging web toward the guide roller when the leading end is released; and a guidance means for forming a tunnel-shaped guide passage at the end of the upstream path, when delivering the packaging web , Guide the tip of the packaging web Guide means that guides to the guide roller through the passage and sandwiches the leading end of the packaging web between the guide roller and the filling member, and when the filling member and the packaging web pass on the downstream path, these filling members And a pressurizing means for increasing the adhesion of the packaging web.
  • the leading end of the packaging web is held by the holding means and stands by in the upstream path of the introduction line. In this standby state, the supply of the filling member toward the wrapping apparatus is started. Thereafter, the leading end of the packaging web is released, and at the same time, the packaging web is delivered toward the guide roller by the delivery means.
  • the leading end of the delivered packaging web enters the tunnel-shaped guide passage, and is guided to the guide roller while being guided in the guide passage.
  • the leading end of the packaging web reaches the guide roller, the leading end of the packaging web is sandwiched between the guide roller and the filling member, and is drawn into the downstream path of the introduction line together with the filling member.
  • the pressurizing means increases the adhesion between the packaging web and the filling member, whereby the packaging web reliably advances in the downstream path together with the filling member, and is wrapped. Delivered into the device. Thereafter, the filling member and the packaging web pass through the wrapping apparatus by the travel of the guillotine tape, and the packaging web setup work is completed.
  • the packaging web can be automatically guided through the wrapping apparatus without opening the molding path in the wrapping apparatus.
  • the downstream path includes two guide walls that sandwich the filling member and the packaging web, and guide the filling member and the packaging web toward the molding path.
  • the guide wall is pressed against one of the filling member and the packaging web.
  • the one guide wall preferably forms the bottom wall of the downstream path that can be displaced vertically, and the pressurizing means includes a push-up mechanism that pushes the bottom wall upward.
  • a push-up mechanism can include a spring that biases the bottom wall downward, and a wedge member that pushes the bottom wall upward against the biasing force of the spring.
  • the delivery means is an air that blows out air toward the guide passage when the packaging web is delivered. Including the nozzle! / The air blown out from the air nozzle, which is preferable to be guided, reliably guides the leading end of the packaging web to the guide passage.
  • the delivery means is disposed near the upstream path and positioned upstream of the guide path, with the upstream path sandwiched between the first roller,
  • a roller holder that is rotatable between a preparation position and an operating position, and has a roller holder having an end close to the guide path when the roller holder is in the operating position, and a roller holder provided on the roller holder.
  • the holder may include a second roller that sandwiches the packaging web with the first roller, and a motor that rotates at least one of the first and second rollers.
  • the first and second rollers sandwich the packaging web, while the first and second rollers also separate the web path force during operation of the rod making machine. ing. Therefore, the first and second rollers do not interfere with the travel of the packaging web during operation of the rod making machine.
  • the holding means may include an adsorption surface that is provided at one end of the roller holder and releasably adsorbs the leading end of the packaging web.
  • the air nozzle may be an air ejection hole provided at the tip of the roller holder, and the air ejection hole blows air toward the guide passage when the roller holder is in the operating position.
  • the supply device of the rod manufacturing machine can supply a plurality of types of filter elements as the filling member in the rod-shaped element column arranged in a line in a fixed arrangement pattern. Further, when the rod manufacturing machine has a pair of molding paths, the setup device has an introduction line for each molding path.
  • FIG. 1 is a schematic view showing an upstream section of a rod manufacturing machine according to an embodiment.
  • FIG. 2 is a schematic view showing a downstream section of the rod manufacturing machine of FIG.
  • FIG. 3 is a diagram showing the wrapping apparatus of FIG. 2 more specifically.
  • FIG. 4 is a detailed view of the glue applicator of FIG.
  • FIG. 5 Schematic illustration of part of the web path for feeding the wrapping web towards the wrapping machine It is a figure.
  • FIG. 6 is a diagram specifically showing the setup device in a ready state.
  • FIG. 7 is a sectional view taken along line VII-VII in FIG.
  • FIG. 8 is a detailed view of the web guide of FIG.
  • FIG. 9 is a detailed view of the guide cover of FIG.
  • FIG. 10 is a cross-sectional view showing the guide passage of FIG.
  • FIG. 11 is a view showing a mechanism for vertically moving the bottom guide of FIG.
  • FIG. 12 is a diagram showing a setup device in an operating state.
  • FIG. 13 is a diagram schematically showing a cigarette manufacturing machine.
  • the upstream section 10 of the rod making machine comprises a hopper device 12, which
  • the hopper device 12 includes, for example, four hoppers 16a to 16d. These hoppers 16 are horizontally adjacent and store a number of starting rods. Specifically, as shown in FIG. 1, plain rods F as starting rods are stored in the first and third hoppers 16a and 16c from the left side, whereas in the hoppers 16b and 16d, Is a plain as a starting rod
  • the plain rod F is a bundle of acetate fiber force and the fiber bundle is wrapped in a rod shape.
  • Chia Coal Rod F is made of activated carbon on the plain rod described above.
  • These activated carbon particles are uniformly distributed in the fiber bundle.
  • the upstream section 10 further includes a front conveyor 18f and a rear conveyor 18r.
  • These conveyors 18 are arranged in parallel with the rows of hoppers 16a to 16d.
  • the front competitor 18f extends from the hopper 16a to the hopper 16d.
  • the rear conveyor 18r is disposed between the front conveyor 18f and the row of hoppers 16 and extends from the hopper 16a to the hopper 16b.
  • the front and rear conveyors 18f and 18r have endless succession belts 22f and 22r, respectively. These suction belts 22f and 22r are respectively wound around drive rollers 24, and these drive rollers 24 are positioned at the ends of the front and rear conveyors 18f and 18r. Yes. When the drive rollers 24 are rotated, the succinct belts 22f and 22r travel in the same direction and at the same speed. Suction chambers (not shown) are arranged in the front and rear conveyors 18f and 18r, respectively, and these suction chambers supply a predetermined suction pressure to the suction belts 22f and 22r.
  • the hopper device 12 includes element feeders 26a and 26b for supplying the planes and the charcoal rods F and F in the hoppers 16a and 16b toward the rear conveyor 18r, and the front conveyor 1
  • feeding element feeders 26c and 26d are also arranged in the arrangement direction of the hoppers 16a to 16d.
  • the element feeders 26a to 26d have substantially the same structure. Therefore, only the structure of the element feeder 26a will be described below, and for the other element feeders 26b to 26d, the same parts and members as those of the element feeder 26a in FIG. The explanation is omitted.
  • the element feeder 26a includes a take-out drum 28.
  • the take-out drum 28 is disposed immediately below the hopper 16a, and the outlet of the hopper 16a is covered with a lower force by the outer peripheral surface thereof.
  • a number of grooves are formed on the outer peripheral surface of the take-out drum 28, and these grooves are arranged at equal intervals in the circumferential direction of the take-out drum 28. When the grooves of the take-out drum 28 are at the outlet of the hopper 16a, these grooves receive the plain rod F in the hopper 16a one by one, and
  • the received plain rod F is held in the groove by a succession. Therefore, take
  • the hoppers 16a are taken out one by one and transferred along the outer peripheral surface of the take-out drum 28.
  • the take-out drum 28 further includes a plurality of rotary knives 30 on the outer peripheral surface thereof. As the plain rod F passes through the rotary knife 30 in sequence while the plane rod F is being transferred, this
  • the rotary knife 30 cuts the plain rod F, and the plain rod F
  • a chain conveyor (not shown!) Is disposed immediately below the take-out drum 28, and this chain conveyor extends horizontally from the take-out drum 28 toward the rear conveyor 18r. Choi The conveyor has a plurality of extrusion claws, and these extrusion claws are arranged at predetermined intervals in the running direction of the chain conveyor. While the chain conveyor is running, when one groove of the take-out drum 28 reaches directly above the chain conveyor, one extrusion claw of the chain conveyor passes through the groove. Therefore, the plain rod F in the groove of the take-out drum 28 (each other
  • the plurality of filter elements f) in the separated state are pushed out by the pushing claw and taken out.
  • the chain conveyor is inclined with respect to the groove of the take-out drum 28 at a predetermined angle, so that the extrusion claw passes through the groove without interfering with the groove of the take-out drum 28. can do. Also, if the plain rod F is pushed out of the groove force of the take-out drum 28,
  • a delivery wheel 32 is connected to the end of the chain conveyor via an acceleration path (not shown), and this delivery wheel 32 can be rotated in the vicinity of the rear conveyor 18r, that is, the succession belt 22r. Is arranged.
  • An arcuate delivery path is formed outside the delivery wheel 32, and this delivery path connects between the acceleration path and the rear conveyor 18r.
  • Individual filter elements f are accelerated and sent in order from the first filter element f.
  • the acceleration path has an endless acceleration conveyor (Fig.
  • the accelerating conveyor is located above the chain conveyor and runs faster and faster than the chain conveyor.
  • the delivery wheel 32 has a plurality of delivery claws 34 on its outer peripheral surface, and these delivery claws 34 are arranged at equal intervals in the circumferential direction of the delivery wheel 32. Accordingly, with the rotation of the delivery wheel 32, each delivery claw 34 is pushed out into the acceleration path force delivery path and sequentially enters between the filter elements f in the separated state, and the filter elements f are moved into the rear conveyor 18r. Intermittent on
  • the filter element f fed in this way is the rear conveyor 18r, i.e.
  • the element feeder 26a intermittently supplies the filter elements f onto the rear conveyor 18r, and these filter elements f are moved under the rod manufacturing machine by the rear conveyor 18r.
  • the element feeder 26b removes the charcoal rod F from the hopper 16b, and then cuts the chaco c rod rod F to form individual filter elements f. These filter elements f are
  • filter elements f and filter elements f are alternately arranged on the rear conveyor 18r.
  • the filter element f is placed on the rear conveyor 18r.
  • the rear conveyor 18r feeds the rear element stream toward the rear molding path of the downstream section 10.
  • the element feeders 26c and 26d form a front element stream similar to the rear element stream described above on the front conveyor 18f. Supply towards
  • the lengths of the filter elements f 1 and f to be formed are the same.
  • FIG. 2 shows the downstream section 10 of the rod making machine.
  • the downstream section 10 is provided with a wrapping device 36, which is
  • the wrapping device 36 has the same structure for each of the front and rear molding paths. Therefore, the structure of the wrapping device 36 that forms a pair with one molding path will be described below.
  • the wrapping device 36 includes an endless gusset tape 40, which extends horizontally in a forming groove of a forming bed (not shown).
  • the forming groove forms part of the forming path 38.
  • the guillotine tape 40 is wound around the drive drum 42, and the drive drum When 42 is rotated, the guillotine tape 40 travels in the same direction as the traveling direction of the corresponding conveyor 18, that is, the suction belt 22.
  • the traveling speed of the guillotine tape 40 is slower than the traveling speed of the suction belt 22.
  • the running speed of the sachet belt 22 is set to 1.4 times the running speed of the guillotine tape 40.
  • the drive drum 42 is commonly used for the gutta tape 42 in the front and rear molding paths.
  • a guide roller 44 is rotatably disposed between the guillotine tape 40 and the corresponding conveyor 18, and the guide roller 44 guides the packaging web W and forms a molding path 38, that is, a garment. Lead on top of the tape 40.
  • the wrapping web W is unwound from a web roll (not shown) and guided to the guide roller 44 along the web path.
  • the element stream is supplied from the conveyor 18 on the side corresponding to the guillotine tape 40, the element stream is transferred onto the guillotine tape 40 via the wrapping web W, and thereafter, the gature tape 40 and the wrapping tape. Drive with Web W.
  • the traveling speed of the guillotine tape 40 is slower than the traveling speed of the conveyor 18 (the sachet belt 22), and the wrapping device 36 includes a braking tunnel (not shown) at the beginning of the forming path 38. It is out.
  • the individual filter elements f of the element stream are braked in the braking tunnel.
  • the element stream is the individual filter material f, f
  • the composite element column C is moved along with the packaging web W by the running of the guillata tape 42. It is transferred on the molding path 38.
  • the composite element column C is packed by the former of the wrapping device 36.
  • the formed composite element rod ER is delivered from the lapping device 36 along the forming path 38.
  • FIG. 2 the packaging web W of the composite element rod ER is not shown, and the braking tunnel and former of the wrapping device 36 will be described later.
  • a cutting device 46 is disposed downstream of the wrapping device 36. As the composite element rod ER passes through the cutting device 46, the cutting device 46 cuts the composite element rod ER by a predetermined length to form individual filter rods FR.
  • the cutting device 46 includes a knife rotor 48 that can rotate in one direction, and a plurality of knives 50 are attached to the outer peripheral surface of the knife rotor 48 at equal intervals in the circumferential direction! / RU As the knife rotor 48 rotates, these knives 50 periodically cut the composite element rod ER to form the composite element rod ER force individual filter rods FR.
  • the filter rod FR is a Cyacol element f in the composite element rod ER.
  • a cutting device 46 or knife rotor 48 is commonly used for the composite element rod ER on the front and rear forming paths 38f, 38r, each knife 50 being both composite elements. Cut the rod ER continuously.
  • the cutting device 46 has guide sleeves 52 for guiding the composite element rod ER on the front and rear molding paths 38f and 38r, respectively, and these guide sleeves 52 allow the knife 50 to pass therethrough.
  • kickers 54f and 54r are disposed at the ends of the front and rear molding paths 38f and 38r, respectively, immediately above the ends.
  • These kickers 54 have a rotatable roller and a spiral groove (not shown) formed on the outer peripheral surface of the roller.
  • the filter rod FR is received by a common receiving drum 56. More specifically, the receiving drum 56 is rotatably supported and has a large number of receiving grooves (not shown) on its outer peripheral surface. These receiving grooves are arranged at equal intervals in the circumferential direction of the receiving drum 56, and can receive the filter rod FR kicked out from each forming path 38 every other groove. Therefore, the filter rod FR from which the end forces of the front and rear molding paths 38f and 38r are kicked out by this is alternately arranged on the receiving drum 56 in the circumferential direction of the receiving drum 56.
  • a transfer drum row 58 extends from the receiving drum 56, and the transfer drum row 58 includes a plurality of rotatable transfer drums. These transfer drums are grooved drums similar to the receiving drum 56.
  • the filter rod FR on the receiving drum 56 is received by the transfer drum 58, and the transfer drum row 58 transfers the received filter rod FR to the belt conveyor.
  • the belt conveyor extends toward a boxing machine (not shown) and supplies the filter FR received from the transfer drum row 58 to the boxing machine.
  • the wrapping device 36 includes a front tongue 60, a rear tongue 62, a short holder 64, a long holder 68, and a cooler 70, which are sequentially arranged from the upstream side of the molding path 38.
  • the front tongue 60 is disposed at the start end of the forming path 38, that is, immediately downstream of the guide roller 44 described above.
  • the rear tongue 62 is disposed at a predetermined interval from the front tongue 60, and air nozzles 72 are disposed immediately downstream of the tongues 60 and 62, respectively.
  • the front and rear tongs 60, 62 cooperate with the forming grooves of the forming bed to form braking tunnels through which the element streams described above pass, respectively, and these braking tunnels are filter elements f, f of the element streams.
  • braking tunnels are filter elements f, f of the element streams.
  • each air nozzle 72 is
  • the compressed air is blown onto the elementary column C, and a braking force is further applied to the composite element column C.
  • the short holder 64 and the long holder 68 sequentially bend both side edges of the packaging web W along the outer peripheral surface of the composite element column C, whereby the composite element column C is wrapped in the packaging web W.
  • a glue applicator 66 is disposed in the vicinity of the short holder 64, and this glue applicator 66 has a glue nozzle 74 corresponding to each molding path 38 as shown in FIG. These glues The glue 74 applies wrap glue to one side edge of the corresponding packaging web W. Therefore, when the packaging web W wraps the composite element column C, the side edges of the packaging web W
  • the roller 70 cools the wrap paste and rail paste applied to the packaging web W, respectively, and promotes the solidification of the wrap paste and rail paste. As a result, the adhesive force between the packaging web W and the composite element column CE and between both side edges of the packaging web W is increased.
  • FIG. 3 also shows an exchange device 76 for the guillotine tape 40, and this exchange device 76 is arranged in the vicinity of the drive drum 42.
  • the exchange device 76 includes a V-shaped link 78, and the V-shaped link 78 has one proximal end and two distal ends.
  • the base end of the V-shaped link 78 is rotatably supported.
  • a tension roller 80 is rotatably attached to one end of the V-shaped link 78, and the packaging web W is passed around the tension roller 80 by being wound around the tension roller 80.
  • An air cylinder 82 is connected to the other end of the V-shaped link 78. When the air cylinder 82 is contracted as shown, the tension roller 80 moves upward via the V-shaped link 78 and releases the tension of the galactic tape 40. Therefore, the guillotine tape 40 can easily remove the driving drum 42 and a large number of guide roller forces.
  • FIG. 5 shows a downstream portion of the web path that guides the packaging web W to the guide roller 44.
  • a pooling roller 84 and a pinch roller 86 are arranged in the web path. These rollers 84 and 86 are commonly used for the respective packaging webs W supplied to the front and rear molding paths 38f and 38r, respectively, and these packaging webs W pass between the pooling roller 84 and the pinch roller 86.
  • a buffer lever 88 with a roller is disposed upstream of the pooling roller 84, and a swing lever 90 with a roller is disposed downstream of the pooling roller 84. Further, a suction brake 92 is arranged downstream of the swing lever 90. The buffer lever 88 and the brake 92 are provided independently for each packaging web W.
  • the swing lever 90 is commonly used for each packaging web W.
  • a glue application nozzle 94 is disposed for each packaging web W downstream of the succession brake 92. These glue application nozzles 94 are provided on the corresponding packaging web W as described above. Apply rail glue.
  • the above-described pooling roller 84 has a speed corresponding to the operating speed of the rod manufacturing machine (traveling speed of the governor tape 40), and the forming path 38 on the corresponding side of each packaging web W.
  • a setup device 96 is disposed in the vicinity of the downstream end of the web path, that is, in the vicinity of the guide roller 44 described above.
  • This setup device 96 is simply shown as a block in FIGS. 2, 3 and 5, but when setting up the rod manufacturing machine, that is, when it is ready to start, a new packaging web is placed in the corresponding forming path. Along the wrapping device 36.
  • FIGS. 6 to 12 The details of the setup device 96 are shown in FIGS. 6 to 12. The setup device 96 will be described below with reference to these drawings.
  • the setup device 96 includes a frame 98, and a roller holder 100 is fixed to the front surface of the frame 98.
  • the roller holder 100 is disposed below the guide roller 44 and spaced apart from the side of the web path described above.
  • the roller holder 100 rotatably supports a roller shaft 102 via a plurality of bearings, and a feed roller 104 is attached to one end of the roller shaft 102.
  • the delivery roller 104 is commonly used for each packaging web W.
  • the roller shaft 102 extends through the frame 98, and a gear 106 is attached to the other end of the roller shaft 102.
  • the gear 106 meshes with the drive gear 108, and the drive gear 108 is attached to the output shaft 112 of the electric motor 110.
  • the electric motor 110 is driven, the delivery roller 104 is rotated in one direction, that is, the clock direction indicated by the arrow C in FIG.
  • the electric motor 110 is attached to the back of the frame 98 via a motor holder 113.
  • a holder bracket 114 is disposed on the side of the delivery roller 104, and this holder bracket 114 is also attached to the front surface of the frame 98.
  • the web path passes between the holder bracket 114 and the delivery roller 104.
  • a movable roller holder 118 is attached to the holder bracket 114 via a pivot shaft 116, and the movable roller holder 118 is rotatable about a pivot shaft 116 in a direction in which the movable roller holder 118 contacts and separates from the delivery roller 104. is there . That is, the movable roller holder 118 has a horizontal preparation position shown in FIG. Between the two.
  • the movable holder 118 has a holding surface 120, and this holding surface 120 is directed upward when the movable roller holder 118 is in the preparation position.
  • the movable roller holder 118 is provided with a pair of pinch rollers 122 corresponding to each packaging web W, and these pinch rollers 122 are rotatably supported in the movable roll holder 118.
  • the pair of pinch rollers 122 are separated from each other in the axial direction of the pivot shaft 116 and slightly protrude from the holding surface 120 of the movable roller holder 118.
  • the holding surface 120 of the movable roller holder 118 has a pair of succession areas 124 in a part thereof. These suction regions 124 are spaced apart from each other in the axial direction of the pivot shaft 116, like the pinch roller 122. Further, when the movable roller holder 118 is in the operating position, that is, in the vertical posture, the pair of suction regions 124 are positioned at the upper end portion of the holding surface 120.
  • the pair of suction regions 124 is connected to an external path 126 through an internal passage of the movable roller holder 118, and the external path 126 is connected to a suction source 128 such as a blower. Further, an electromagnetic valve 130 is inserted in the external path 126.
  • This solenoid valve 130 is a three-port two-position directional switching valve, and has a suction position for supplying the suction pressure toward the suction area 124, and an open position for releasing the suction pressure in the suction area 124 to the atmosphere. Switching is performed between the succession position and the release position.
  • the movable roller holder 118 when the movable roller holder 118 is in the operating position, the movable roller holder 118 has a side surface 118a as an upper surface thereof, and a pair of air nozzles are provided on the side surface 118a.
  • the pair of air nozzles is formed from a pair of air ejection holes 132, and these air ejection holes 132 open to the side surface 118a.
  • These air ejection holes 132 are positioned at the end of the side surface 118a on the side of the succession area 124 (see FIG. 6), and are spaced apart from each other in the axial direction of the pivot shaft 116, like the pair of succession areas 124.
  • Each air ejection hole 132 is connected to the external path 134 through the internal path of the movable roller holder 118.
  • the external path 134 is connected to a compressed air source 136, and a solenoid valve 138 is interposed in the external path 134.
  • the movable roller holder 118 is provided with a grip 140, and this grip 140 is used for rotating the movable aperture holder 118.
  • the holder bracket 114 is The index plunger 142 is used to hold the movable roller holder 118 in its preparatory position and operating position, respectively.
  • a plate-shaped web guide 144 is disposed immediately below the guide roller 44, and the web guide 144 extends downward from the guide roller 44 along the web path.
  • the web guide 144 is attached to the front surface of the frame 98 via a bracket 146.
  • the web guide 144 has a pair of guide grooves 148 corresponding to each packaging web W on the front surface thereof, and these guide grooves 148 extend parallel to each other along the web path. Matches the width of. Therefore, the guide groove 148 can guide the traveling of the corresponding packaging web W.
  • a pair of recesses 150 are formed in the lower end surface of the web guide 144. These recesses 150 are positioned at the lower ends of the corresponding guide grooves 148, and the front force of the web guide 144 also forms a groove reaching the back surface.
  • each of the air ejection holes 132 described above is positioned immediately below the corresponding recess 150, and is positioned at the lower end of the guide groove 148. Directed.
  • a guide cover 152 is disposed on the front side of the web guide 144.
  • the guide cover 152 has an upper end portion that is curved along the outer peripheral surface of the guide roller 44, and extends downward along the web path from the upper end portion. Between the guide cover 152 and the guide roller 44 and between the guide cover 152 and the web guide 144, a guide passage 154 for each packaging web W is formed.
  • the guide cover 152 extends downward beyond the lower end of the web guide 144, and the lower end of the guide cover 152 is attached to the rotating shaft 156.
  • the rotation shaft 156 is disposed above the delivery roller 104 described above and extends in parallel with the axis of the delivery roller 104.
  • the rotating shaft 156 has a grip 158 at one end, and the other end of the rotating shaft 156 is rotatably supported by the frame 98. That is, as shown in FIG. 9, the other end of the rotation shaft 156 is attached to the frame 98 via the holder 160, and the holder 160 allows the rotation shaft 156 to rotate.
  • the grip 158 is used to rotate the rotation shaft 156.
  • Rotating shaft 156 is rotated
  • the guide cover 152 rotates about the rotation shaft 156 between a rest position indicated by a solid line in FIG. 6 and an operation position indicated by a two-dot chain line.
  • the guide force bar 152 covers each of the pair of guide grooves 148 described above, and the guide passage 154 is tunneled by each guide groove 148. Shape.
  • the guide cover 152 is positioned at the rest position indicated by the solid line in FIG.
  • a bottom guide 162 is disposed between the guide roller 44 and the starting end of the forming path 38 (roller that guides the guillotine tape 40).
  • This bottom guide 162 has a common upper surface 162a for the front and rear molding paths 38f, 38r.
  • This upper surface 162a is the top of the guillotine tape 40, the guide roller 44, and the above-described molding path 38. It is positioned at the same level as the upper surface of the conveyor 18 and extends from the guide roller 44 to the starting end of the forming path 38.
  • the bottom guide 162 cooperates with the above-described front tongue 60 to form an introduction passage 164 from the guide roller 44 to the forming passage 38 (braking tunnel). That is, the bottom guide 162 becomes the bottom wall of the introduction passage 164.
  • the front tongue 60 of FIG. 6 is simply shown as the ceiling wall (guide wall) of the introduction passage 164.
  • the introduction passage 164 may extend the guide roller 44 force to the end of the conveyor 18.
  • the upper guide 166 is disposed upstream of the front tongue 60
  • the lower guide 168 is disposed between the upper end of the guide cover 152 and the end of the competitor 18 described above.
  • the above-described bottom guide 162 is supported by a push-up device 169, and this push-up device can displace the bottom guide 162 up and down.
  • the push-up device will be described in detail below.
  • the bottom guide 162 has a leg 170, and the leg 170 extends downward.
  • the lower end of the leg 170 is sandwiched between the support plate 172 and the back plate 174.
  • These plates 172, 174 are connected to each other.
  • the support plate 172 is disposed between the leg portion 170 of the bottom guide 162 and the web guide 144 described above, and is supported by the frame 98.
  • a pair of screw pins 176 are attached to the lower ends of the legs 170 via nuts 177. These nuts 177 are installed in slots 179 formed in the support plate 172.
  • the pair of screw pins 176 are separated from each other in the axial direction of the guide roller 44 and project toward the molding path 38 side. More specifically, a pair of slots 178 are formed in the back plate 174, and these slots 178 extend in the vertical direction.
  • Each screw pin 176 protrudes through the corresponding slot 178 to the molding path 38 side.
  • the slots 178 and 179 described above allow the bottom guide 162 to be displaced in the vertical direction.
  • screw pins 177 are attached to the lower end of the back plate 174 corresponding to the slots 178, and the screw pins 176 corresponding to the screw pins 177 are connected to each other by a tension coil spring 180. !
  • the bottom surface of the bottom guide 162 is formed on an inclined surface 162b, and a wedge member 182 is engaged with the inclined surface 162b.
  • the wedge member 182 pushes up the bottom guide 162 against the urging force of the tension coil spring 180, and the upper surface 162a of the bottom guide 162 is positioned at the level described above.
  • the wedge member 182 is fixed to the support rod 184, and the support rod 184 extends horizontally between the support plate 172 and the back plate 174.
  • One end 184 a of the support rod 184 is slidably supported by the roller holder 186 of the guide aperture 44, and the other end 184 b of the support rod 184 is hinged to the push rod 188.
  • the support rod 184 does not hinder the vertical displacement of the bottom guide 162.
  • the push rod 188 slidably penetrates the frame 98 and the bracket 190 and is connected to the piston rod 194 of the air cylinder 192 via a coupling 196.
  • the bracket 190 is attached to the support member 191 of the air cylinder 192.
  • the movable roller holder 118 and the guide cover 152 are in the same state as when the rod manufacturing machine is in operation. That is, the movable roller holder 118 is positioned at a horizontal preparation position, and the guide cover 152 is positioned at a rest position where the web guide 144 force is also separated.
  • the packaging web W1 to be supplied to the forming path 38 is guided to the movable roller holder 118 through the web path. Further, the leading end of the packaging web W1 passes through the pinch roller 122 of the movable roller holder 118 and is positioned in the corresponding suction region 124 of the holding surface 120. Thereafter, the solenoid valve 130 is switched and the suction pressure is supplied to the suction region 124. As a result, the suction region 124 sucks and holds the leading end of the packaging web W1.
  • the pinch roller 122 of the movable roller holder 118 is moved to the delivery roller 104 via the packaging web W1, as shown in FIG.
  • the wrapping web W1 is sandwiched between the feed roller 104 and the pinch roller 122 by rolling.
  • the one-dot chain line in FIG. 12 indicates the packaging web W when the rod manufacturing machine is in operation, that is, the web path.
  • the upper end surface 118a of the movable roller holder 118 is positioned immediately below the web guide 144, and the leading end of the packaging web W1 is near the lower end of the guide channel 154, that is, the corresponding guide groove 148 of the web guide 144. Positioned on.
  • the guide cover 152 has already been pivoted to the operating position, and the guide groove 152 is formed in the guide groove 148.
  • the running of tape 40 is also started.
  • the solenoid valve 138 (Fig. 6) is switched and the compressed air is applied from the air ejection hole 132 of the movable roller holder 118 It is ejected toward the guide groove 148, that is, the lower end of the tunnel. Simultaneously with the switching operation of the solenoid valves 130 and 138, the electric motor 110 (see FIG. 7) is driven, and the feed roller 104 is also rotated at this time.
  • the rotation of the delivery roller 104 causes the force between the delivery roller 104 and each pinch roller 122 to also feed the packaging web W1, so that the leading end of the packaging web W1 corresponds to the corresponding guide groove 148, that is, the tunnel. Head for.
  • the compressed air ejected from the air ejection holes 132 blows up the leading end of the packaging web W1 and reliably guides it into the guide groove 148. Therefore, the leading end of the packaging web W1 reaches the guide roller 44 through the guide groove 148, that is, the guide passage 154, and is sandwiched between the guide roller 44 and the corresponding composite element column C. This results in packaging
  • the vehicle enters the introduction passage 164 described above.
  • the adhesive strength between the two increases, and the packaging web W1 is in the introduction passage 164 together with the composite element column C.
  • the guide passage 154 including the guide groove 148 and the introduction passage 164 form an introduction line for guiding the packaging web W 1 onto the forming passage 38.
  • the gamut tape 40 is run, the composite element column C is fed, the wrapping web W1 is fed by the feed roller 104, and the air is blown.
  • the air guide 192 is contracted in the bottom guide 162, and the bottom guide 162 returns to the original position. Further, the movable roller holder 118 and the guide cover 152 are returned to the preparation position and the rest position, respectively.
  • the packaging web Wl that has passed through the wrapping device 36 that is, the composite element rod ER is moved from the wrapping device 36 by the action of a deflector (not shown) that does not face the cutting device 46. It is discharged into a collection container (not shown).
  • the leading end of the packaging web may be held by a mechanical chuck, not by suction, and the feed roller 104 may be a movable roller. It may be attached to the holder 118 and the pinch roller 122 may be attached to the roller holder 100.
  • the feed roller 104 may be a movable roller. It may be attached to the holder 118 and the pinch roller 122 may be attached to the roller holder 100.
  • Roller 44 itself can be displaced up and down!
  • the setup device of the present invention is similar to a single track type rod manufacturing machine having only one forming path and a manufacturing machine for manufacturing a plain filter rod in which a tow of a fiber material is wrapped in a packaging web. Can be applied.
  • setup device of the present invention can also be applied to a cigarette manufacturing machine.
  • FIG. 13 schematically shows a cigarette manufacturing machine. This manufacturing machine is a lapping machine 3
  • a cigarette band 20 for supplying layered chopped cigarettes toward the forming path of the rubbing device 200, as well as a lapping device 200 and a cutting device 202 similar to the cutting device
  • the wrapping apparatus 200 has a single tong Z shroud 206 which strips the tobacco layer 204 from the cigarette band 204, and the peeled tobacco layer is the cigarette band 2
  • the cigarette making machine described above may be of a double track type having two forming paths.
  • a manufacturing machine that manufactures a plain filter rod includes a trumpet guide that guides the tow instead of the cigarette band 204.

Landscapes

  • Cigarettes, Filters, And Manufacturing Of Filters (AREA)
  • Manufacturing Of Cigar And Cigarette Tobacco (AREA)
  • Containers And Plastic Fillers For Packaging (AREA)

Abstract

Dispositif de configuration pour toile d’emballage (W1) appliquée à une machine fabriquant des tiges, comportant un rouleau de guidage (44) disposé près d’un chemin de moulage (38) et guidant la toile d’emballage (W1) au chemin de moulage (38), un passage de guidage en forme de tunnel (154) formé sur le côté amont du rouleau de guidage (44) et guidant la toile d’emballage (W1) quand la toile d’emballage (W1) est fournie au rouleau de guidage (44), un passage d’entrée (164) entraînant une colonne d’élément composé (CE) et la toile d’emballage (W1) du rouleau de guidage (44) au chemin de moulage (38), et un guide inférieur (162) formant la paroi inférieure du passage d’entrée (164) et pouvant être déplacé dans le sens vertical.
PCT/JP2005/014679 2004-08-16 2005-08-10 Dispositif de configuration menant une toile d’emballage à une machine fabriquant des tiges Ceased WO2006019026A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2004-236587 2004-08-16
JP2004236587A JP2007312601A (ja) 2004-08-16 2004-08-16 ロッド製造機の包材ウエブ挿通装置

Publications (1)

Publication Number Publication Date
WO2006019026A1 true WO2006019026A1 (fr) 2006-02-23

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Application Number Title Priority Date Filing Date
PCT/JP2005/014679 Ceased WO2006019026A1 (fr) 2004-08-16 2005-08-10 Dispositif de configuration menant une toile d’emballage à une machine fabriquant des tiges

Country Status (2)

Country Link
JP (1) JP2007312601A (fr)
WO (1) WO2006019026A1 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020099721A1 (fr) * 2018-11-12 2020-05-22 Kompopat Oy Procédé et appareil pour former un lot de matériau pour un produit final
CN112236048A (zh) * 2018-04-06 2021-01-15 李正洙 电子烟制造设备
US11571015B2 (en) 2019-08-23 2023-02-07 Altria Client Services Llc Methods of assembling filters and spacing drum systems thereof

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
IT1398917B1 (it) * 2010-03-02 2013-03-28 Montrade S R L Macchina per la realizzazione di filtri di sigaretta
PL390871A1 (pl) * 2010-03-29 2011-10-10 International Tobacco Machinery Poland Spółka Z Ograniczoną Odpowiedzialnością Sposób kompensacji chwilowego braku segmentów filtrowych w linii wytwarzania filtrów wielosegmentowych oraz urządzenie umożliwiające kompensację chwilowego braku segmentów filtrowych w linii wytwarzania filtrów wielosegmentowych
CA3099822A1 (fr) 2018-05-21 2019-11-28 Jt International Sa Procede et appareil de fabrication d'articles de generation d'aerosol

Citations (3)

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Publication number Priority date Publication date Assignee Title
JPH08205842A (ja) * 1994-11-07 1996-08-13 Molins Plc 2トラックシガレット製造機械
JP2002204683A (ja) * 2001-01-12 2002-07-23 Japan Tobacco Inc フィルタ製造機のフィルタ用ウエブ皺付け装置
JP2003024035A (ja) * 2001-07-18 2003-01-28 Japan Tobacco Inc シガレット用フィルタロッドの製造機

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08205842A (ja) * 1994-11-07 1996-08-13 Molins Plc 2トラックシガレット製造機械
JP2002204683A (ja) * 2001-01-12 2002-07-23 Japan Tobacco Inc フィルタ製造機のフィルタ用ウエブ皺付け装置
JP2003024035A (ja) * 2001-07-18 2003-01-28 Japan Tobacco Inc シガレット用フィルタロッドの製造機

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112236048A (zh) * 2018-04-06 2021-01-15 李正洙 电子烟制造设备
EP3777582A4 (fr) * 2018-04-06 2022-01-26 Lee, Jung-soo Dispositif de fabrication de cigarette électronique
WO2020099721A1 (fr) * 2018-11-12 2020-05-22 Kompopat Oy Procédé et appareil pour former un lot de matériau pour un produit final
US11571015B2 (en) 2019-08-23 2023-02-07 Altria Client Services Llc Methods of assembling filters and spacing drum systems thereof

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