EP3405049B1 - Machine for making cigarette filters and method for making cigarette filters - Google Patents
Machine for making cigarette filters and method for making cigarette filters Download PDFInfo
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- EP3405049B1 EP3405049B1 EP17704538.2A EP17704538A EP3405049B1 EP 3405049 B1 EP3405049 B1 EP 3405049B1 EP 17704538 A EP17704538 A EP 17704538A EP 3405049 B1 EP3405049 B1 EP 3405049B1
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- planar
- machine according
- making machine
- internal channel
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D3/00—Tobacco smoke filters, e.g. filter-tips, filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces for cigars or cigarettes
- A24D3/02—Manufacture of tobacco smoke filters
- A24D3/0229—Filter rod forming processes
- A24D3/0233—Filter rod forming processes by means of a garniture
Definitions
- This invention relates to a machine for making cigarette filters and to a method for making cigarette filters.
- cigarette filters are made from a strip of filter material, usually cellulose acetate, which is drawn out, stretched and treated with additive materials, in particular plasticizing fluids (triacetin, for example) to form a tow of filter material.
- the tow is processed and subjected to the action of process fluids, such as steam, for example, to obtain a filter rod from which individual pieces of filter are cut.
- Document US3377220 describes a station for processing a tow of filter material where a flow of steam from an external source is fed to an elongated chamber and brought into contact with the tow through a plurality of radial ducts.
- This invention therefore has for an aim to provide a machine for making cigarette filters and a method for making cigarette filters to overcome the drawbacks mentioned above with reference to the prior art.
- the aim of this invention is to provide a machine for making cigarette filters and a method for making cigarette filters capable of optimizing and making uniform the flow of steam which comes into contact with the tow.
- the filter making machine and method of this invention allow obtaining a better distribution of the steam flow transversely to the tow to be treated.
- the making machine 1 comprises a forming beam 2 configured to receive a tow 3 of filter material.
- the tow 3 of filter material - cellulose acetate for example - comes from one or more processing stations, not illustrated.
- the filter material is drawn out from compressed bales of filter tow material and made to advance through the above mentioned processing stations where it is first stretched and then impregnated with a plasticizing fluid such as triacetin, for example.
- a plasticizing fluid such as triacetin
- the channel 7 is adapted to receive the tow 3 and its transverse cross section changes along the main longitudinal direction 8 in such a way as to impart a predetermined shape to the tow 3 to form the rod 4.
- the numeral 9 denotes porous conveyor means - for example, a conveyor belt made of material permeable to air and steam - configured to slide in the channel 7 of the forming beam 2 along the main longitudinal direction 8.
- the conveyor means are also configured to carry the tow 3 along a feed path 10.
- a mandrel 9a is used to make a rod 4 with a longitudinal hole in it suitable for making flow filters. Alternatively, the mandrel 9a may be omitted.
- the conveyor means 9 are also adapted to comply with the shape of the transverse cross section of the channel 7 and to be at least partly wrapped around the tow 3. Preferably, in the configuration where the conveyor means 9 are wrapped as far as possible circumferentially around the tow 3, the conveyor means 9 do not overlap and leave a portion 11 ( Figure 3a ) of the tow 3 uncovered.
- the forming beam 2 comprises a base 12 and a cover 13 closable over the base 12 along a plane parallel to the main longitudinal direction 8 to form the channel 7.
- the base 12 has one half-portion of the channel 7, for example, the lower half-portion
- the cover 13 has the other half-portion of the channel 7, for example, the upper half-portion, so that the channel 7 is obtained in a configuration where the cover 13 is fitted over the base 12.
- the making machine 1 comprises at least one treatment station 14 located along the feed path 10 and comprising at least one nozzle 15 configured to blow a flow of steam into the internal channel 7 transversely thereto.
- Figure 1 shows three treatment stations 14 distributed along the feed path 10. In alternative embodiments, there may be one or more treatment stations 14 distributed in various ways along the feed path 10.
- the nozzle 15 comprises a plurality of planar sectors 16a-16e positioned transversely to the internal channel 7.
- the planar sectors 16a-16e are in communication with each other, defining an overall, uninterrupted planar flow orifice 17 around the internal channel 7.
- the overall planar flow orifice 17 is shown in Figure 3a and is suitable for producing a steam blade leading into the channel 7.
- the overall planar flow orifice 17 is in direct communication with a steam feed duct 18 positioned around the channel 7, for example at a lateral section of the feed duct itself which, in Figure 3a is schematically represented by the dashed line "T".
- the numeral 19 denotes an inlet duct of the feed duct 18, for example formed in the base 12 of the forming beam 2.
- the inlet duct 19 defines a steam flow direction 19a.
- planar sectors 16a-16e run parallel to the steam flow direction 19a along the inlet duct 19.
- planar sectors 16a-16e run parallel to one side of the feed path "A", for example parallel to the arms 18a, 18c of the feed duct 18.
- Each planar sector 16a-16e defines a corresponding flow orifice 17a-17e in direct communication with the steam feed duct 18.
- the flow orifices 17a-17e correspond to portions of the overall planar flow orifice 17.
- Each flow orifice 17a-17e has a respective thickness "Sa"-"Se" measured along the main longitudinal direction 8. At least two of the flow orifices 17a-17e differ in thickness.
- the lateral planar sectors 16a, 16b have respective thicknesses "Sa", “Sb” which are greater than the thickness "Sc" of the front planar sector 16c and/or the thickness "Sd" of the rear planar sector 16d.
- the lateral planar sectors 16a, 16b have respective thicknesses "Sa", “Sb” which are the same and preferably between 0.3 mm and 0.9 mm.
- the front planar sector 16c and the rear planar sector 16d have respective thicknesses "Sc" and "Sd” which are the same and preferably between 0.25 mm and 0.8 mm.
- the compensating planar sector 16e has a thickness "Se" which is less than the thickness "Sc" of the front planar sector 16c and/or the thickness "Sd" of the rear planar sector 16d.
- the compensating planar sector 16e has a thickness "Se” of between 0.20 mm and 0.25 mm.
- compensating means 23 are provided which are interposed between at least one portion 21, 22 of the insert 20 and the cover 13 and/or the base 12, respectively.
- the compensating means are interposed between the portion 21, which is located above the channel 7, and the cover 13.
- the compensating means are configured to keep the position of the two portions 21, 22 relative to each other unchanged when the working distance between the base 12 and the cover 13 is changed. In effect, this working distance may be adjusted as a function of the diameter of the rod 4 to be made.
- the compensating means 23 comprise at least one elastic element, preferably a spring 24.
- This invention also relates to a method for making cigarette filters and which can be implemented, for example, by a making machine as described above.
- the method comprises a step of inserting a tow 3 of filter material impregnated with a plasticizing fluid into the channel 7 of the forming beam 2.
- the tow 3 is carried along the feed path 10 by porous conveyor means 9.
- the method also comprises a step of blowing a flow of steam into the channel 7 transversely thereto by means of a nozzle 15.
- the step of blowing the steam is carried out by differentiating the thickness of the orifice 17 for steam flow through the nozzle 15.
- the thickness of the orifice 17 for flow through the nozzle is differentiated according to the position of the feed duct 18 relative to the inlet duct 19.
- the machine 1 comprises a main channel 25 which feeds all the treatment stations 14, in particular all the inlet ducts 19 located along the forming beam.
- the steam follows the flow direction 19a along the inlet duct 19 and enters along the feed path "A" defined by the feed duct 18.
- the feed path is optimized because it leads directly into the flow orifices 17a-17e (and thus into the overall flow orifice 17) without excessive load losses and expansions. More specifically, the lateral section "T" of the feed duct surrounds and circumscribes the overall planar flow orifice to provide a direct steam supply flow.
- the steam flow is distributed uniformly and optimally.
- the lateral planar sectors 16a, 16b are greater in thickness in order to compensate for the lateral position relative to the inlet duct 19.
- the presence of the compensating planar sector 16e of reduced thickness allows compensating for the absence of the conveyor means 9 at the tow portion 11 and thus for the smaller load losses which the steam meets before penetrating the tow.
- At least one treatment station 14 located along the feed path 10 comprises at least one nozzle 15 configured to blow a flow of steam into the internal channel 7 transversely thereto.
- the nozzle 15 is an insert 20 placed around the internal channel 7 and comprising at least two portions 21, 22 made separately.
- the forming beam 2 comprises a base 12 and a cover 13 closable over the base 12 along a plane parallel to the main longitudinal direction 8 to form the internal channel 7, and the portions 21, 22 of the insert 20 are associated with the base 12 and the cover 13, respectively.
- the compensating means 23 are interposed between at least one portion 21, 22 of the insert 20 and the cover 13 and/or the base 12, respectively.
- the compensating means 23 comprise at least one elastic element, preferably a spring 24.
- the presence of the plurality of planar sectors 16a-16e as described above is a secondary, optional feature.
Description
- This invention relates to a machine for making cigarette filters and to a method for making cigarette filters.
- In the prior art, cigarette filters are made from a strip of filter material, usually cellulose acetate, which is drawn out, stretched and treated with additive materials, in particular plasticizing fluids (triacetin, for example) to form a tow of filter material. The tow is processed and subjected to the action of process fluids, such as steam, for example, to obtain a filter rod from which individual pieces of filter are cut.
- Document
US3377220 describes a station for processing a tow of filter material where a flow of steam from an external source is fed to an elongated chamber and brought into contact with the tow through a plurality of radial ducts. - This solution has some drawbacks connected with the fact that the path followed by the steam is not an optimum one since it has to traverse an elongated chamber and is not uniform because it is radially concentrated in the ducts.
- Another known solution is disclosed in
EP2636321 in which the steam is fed in an accumulation chamber surrounding the forming channel and communicating with the forming channel through an annular nozzle. - This invention therefore has for an aim to provide a machine for making cigarette filters and a method for making cigarette filters to overcome the drawbacks mentioned above with reference to the prior art.
- More specifically, the aim of this invention is to provide a machine for making cigarette filters and a method for making cigarette filters capable of optimizing and making uniform the flow of steam which comes into contact with the tow.
- These aims are achieved by a machine for making cigarette filters and a method for making cigarette filters having the features set out in one or more of the appended claims.
- Advantageously, the filter making machine and method of this invention allow obtaining a better distribution of the steam flow transversely to the tow to be treated.
- Further features and advantages of the invention are more apparent from the following exemplary and therefore non-limiting description of a preferred and hence non-exclusive embodiment of a machine for making cigarette filters and a method for making cigarette filters.
- The invention is described below with reference to the accompanying drawings, which illustrate a non-limiting embodiment of it and in which:
-
Figure 1 is a view in cross section of a detail of a forming beam of a machine for making cigarette filters; -
Figure 2 is an enlarged detail fromFigure 1 ; -
Figure 3 is a cross-section through the line III-III ofFigure 2 ; -
Figure 3a shows an enlarged view of the detail X fromFigure 3 ; -
Figure 4 is a perspective view of a detail fromFigure 1 ; -
Figure 5 shows a front view of the detail ofFigure 4 according to the arrow V; -
Figure 6 is an enlarged detail fromFigure 3 ; -
Figure 7 is a view according to the arrow VII of the detail ofFigure 6 ; -
Figure 8 is a schematic view of a machine for making cigarette filters. - With reference to
Figure 8 , a machine for making cigarette filters is denoted in its entirety by thenumeral 1. - The making
machine 1 comprises a formingbeam 2 configured to receive atow 3 of filter material. Thetow 3 of filter material - cellulose acetate for example - comes from one or more processing stations, not illustrated. Preferably, the filter material is drawn out from compressed bales of filter tow material and made to advance through the above mentioned processing stations where it is first stretched and then impregnated with a plasticizing fluid such as triacetin, for example. Thus, thetow 3 of filter material which reaches the formingbeam 2 is impregnated with a plasticizing fluid. - Along the forming beam, the
tow 3 is folded on itself about its longitudinal axis to form acontinuous rod 4 of filter material. - The making
machine 1 also comprises cutting means 5 adapted to cut therod 4 transversely into a plurality of pieces 6 whose longitudinal dimensions are suitable for the subsequent processes. - The forming
beam 2 has an internal channel 7 which extends along a main longitudinal direction 8 (Figures 1-3 ). - The channel 7 is adapted to receive the
tow 3 and its transverse cross section changes along the mainlongitudinal direction 8 in such a way as to impart a predetermined shape to thetow 3 to form therod 4. - The
numeral 9 denotes porous conveyor means - for example, a conveyor belt made of material permeable to air and steam - configured to slide in the channel 7 of the formingbeam 2 along the mainlongitudinal direction 8. The conveyor means are also configured to carry thetow 3 along afeed path 10. In the embodiment illustrated in the drawings, amandrel 9a is used to make arod 4 with a longitudinal hole in it suitable for making flow filters. Alternatively, themandrel 9a may be omitted. - The conveyor means 9 are also adapted to comply with the shape of the transverse cross section of the channel 7 and to be at least partly wrapped around the
tow 3. Preferably, in the configuration where the conveyor means 9 are wrapped as far as possible circumferentially around thetow 3, the conveyor means 9 do not overlap and leave a portion 11 (Figure 3a ) of thetow 3 uncovered. - Preferably, the forming
beam 2 comprises abase 12 and acover 13 closable over thebase 12 along a plane parallel to the mainlongitudinal direction 8 to form the channel 7. Still more preferably, thebase 12 has one half-portion of the channel 7, for example, the lower half-portion, and thecover 13 has the other half-portion of the channel 7, for example, the upper half-portion, so that the channel 7 is obtained in a configuration where thecover 13 is fitted over thebase 12. - The making
machine 1 comprises at least onetreatment station 14 located along thefeed path 10 and comprising at least onenozzle 15 configured to blow a flow of steam into the internal channel 7 transversely thereto.Figure 1 shows threetreatment stations 14 distributed along thefeed path 10. In alternative embodiments, there may be one ormore treatment stations 14 distributed in various ways along thefeed path 10. With reference toFigures 2-7 , in particularFigure 3a , thenozzle 15 comprises a plurality ofplanar sectors 16a-16e positioned transversely to the internal channel 7. - Preferably, the
planar sectors 16a-16e are in communication with each other, defining an overall, uninterruptedplanar flow orifice 17 around the internal channel 7. The overallplanar flow orifice 17 is shown inFigure 3a and is suitable for producing a steam blade leading into the channel 7. The overallplanar flow orifice 17 is in direct communication with asteam feed duct 18 positioned around the channel 7, for example at a lateral section of the feed duct itself which, inFigure 3a is schematically represented by the dashed line "T". - Preferably, the
feed duct 18 extends along a feed path "A" which is polygonal in shape, preferably rectangular for example, comprisingarms 18a-18d. - The
numeral 19 denotes an inlet duct of thefeed duct 18, for example formed in thebase 12 of the formingbeam 2. Theinlet duct 19 defines asteam flow direction 19a. - In a possible embodiment, the
planar sectors 16a-16e run parallel to thesteam flow direction 19a along theinlet duct 19. - In a possible embodiment, the
nozzle 15 comprises at least twolateral planar sectors inlet duct 19, at least one frontplanar sector 16c located between theinlet duct 19 and the channel 7 and at least one rearplanar sector 16d located on the opposite side of the channel 7 relative to theinlet duct 19. In a possible embodiment, thenozzle 15 comprises a compensating planar sector 16e giving onto theportion 11 of thetow 3 not wrapped by the porous conveyor means 9. Preferably, the compensating planar sector 16e is located on the opposite side of the internal channel 7 relative to theinlet duct 19, at a central position between tworear planar sectors 16d. Preferably, theplanar sectors 16a-16e run parallel to one side of the feed path "A", for example parallel to thearms feed duct 18. Eachplanar sector 16a-16e defines acorresponding flow orifice 17a-17e in direct communication with thesteam feed duct 18. In the example illustrated in the drawings, theflow orifices 17a-17e correspond to portions of the overallplanar flow orifice 17. - All the
flow orifices 17a-17e lead directly into the channel 7. - Each
flow orifice 17a-17e has a respective thickness "Sa"-"Se" measured along the mainlongitudinal direction 8. At least two of theflow orifices 17a-17e differ in thickness. - Preferably, the
lateral planar sectors planar sector 16c and/or the thickness "Sd" of the rearplanar sector 16d. - Preferably, the
lateral planar sectors - Preferably, the front
planar sector 16c and the rearplanar sector 16d have respective thicknesses "Sc" and "Sd" which are the same and preferably between 0.25 mm and 0.8 mm. - Preferably, the compensating planar sector 16e has a thickness "Se" which is less than the thickness "Sc" of the front
planar sector 16c and/or the thickness "Sd" of the rearplanar sector 16d. For example, the compensating planar sector 16e has a thickness "Se" of between 0.20 mm and 0.25 mm. - In a possible embodiment, the
nozzle 15 is aninsert 20 placed around the internal channel 7 and comprising at least twoportions - Preferably, the two
portions longitudinal direction 8, for example, a horizontal plane. Preferably, theportions insert 20 are associated with thebase 12 and thecover 13 of the formingbeam 2, respectively. More specifically, theportion 21 located above the channel 7 is associated with thecover 13 and theportion 22 located below the channel 7 is associated with thebase 12. - In a possible embodiment, compensating means 23 are provided which are interposed between at least one
portion insert 20 and thecover 13 and/or thebase 12, respectively. Preferably, the compensating means are interposed between theportion 21, which is located above the channel 7, and thecover 13. The compensating means are configured to keep the position of the twoportions cover 13 is changed. In effect, this working distance may be adjusted as a function of the diameter of therod 4 to be made. - Preferably, the compensating
means 23 comprise at least one elastic element, preferably aspring 24. - This invention also relates to a method for making cigarette filters and which can be implemented, for example, by a making machine as described above. The method comprises a step of inserting a
tow 3 of filter material impregnated with a plasticizing fluid into the channel 7 of the formingbeam 2. Thetow 3 is carried along thefeed path 10 by porous conveyor means 9. The method also comprises a step of blowing a flow of steam into the channel 7 transversely thereto by means of anozzle 15. The step of blowing the steam is carried out by differentiating the thickness of theorifice 17 for steam flow through thenozzle 15. Preferably, the thickness of theorifice 17 for flow through the nozzle is differentiated according to the position of thefeed duct 18 relative to theinlet duct 19. - The operation of the filter making machine disclosed in the foregoing is described below.
- While the
tow 3 moves along inside the formingbeam 2, a jet of steam is blown onto it through thenozzle 15. Preferably, themachine 1 comprises amain channel 25 which feeds all thetreatment stations 14, in particular all theinlet ducts 19 located along the forming beam. - The steam follows the
flow direction 19a along theinlet duct 19 and enters along the feed path "A" defined by thefeed duct 18. The feed path is optimized because it leads directly into theflow orifices 17a-17e (and thus into the overall flow orifice 17) without excessive load losses and expansions. More specifically, the lateral section "T" of the feed duct surrounds and circumscribes the overall planar flow orifice to provide a direct steam supply flow. - Thanks to the presence of at least two flow orifices of different thicknesses, the steam flow is distributed uniformly and optimally.
- More specifically, the lateral
planar sectors inlet duct 19. Moreover, the presence of the compensating planar sector 16e of reduced thickness allows compensating for the absence of the conveyor means 9 at thetow portion 11 and thus for the smaller load losses which the steam meets before penetrating the tow. - If compensating means are provided, the steam flow feed path can be optimized and made independent of the adjustment of the working distance between the base and lid of the forming beam when the diameter of the tow is adjusted.
- Alternatives to what is described and illustrated herein are possible. In particular, a cigarette filter making machine may be provided which, independently of the type of nozzle and of the presence of the planar sectors, comprises the compensating means 23 interposed between at least one
portion insert 20 and thecover 13 and/or thebase 12, respectively, in order to keep the position of the twoportions cover 13 is changed. - In this case, therefore, the making machine comprises a forming
beam 2 having an internal channel 7 extending along a mainlongitudinal direction 8 and adapted to receive atow 3 of filter material impregnated with a plasticizing fluid. The transverse cross section of the channel 7 changes along the mainlongitudinal direction 8 in such a way as to impart a predetermined shape to thetow 3 to form thecontinuous rod 4 of filter material. Porous conveyor means 9 are configured to slide in the channel 7 of the formingbeam 2 along the mainlongitudinal direction 8 and to carry thetow 3 along afeed path 10. The conveyor means are adapted to comply with the shape of the transverse cross section of the internal channel 7 and to be at least partly wrapped around thetow 3. At least onetreatment station 14 located along thefeed path 10 comprises at least onenozzle 15 configured to blow a flow of steam into the internal channel 7 transversely thereto. Advantageously, thenozzle 15 is aninsert 20 placed around the internal channel 7 and comprising at least twoportions beam 2 comprises abase 12 and acover 13 closable over thebase 12 along a plane parallel to the mainlongitudinal direction 8 to form the internal channel 7, and theportions insert 20 are associated with thebase 12 and thecover 13, respectively. The compensating means 23 are interposed between at least oneportion insert 20 and thecover 13 and/or thebase 12, respectively. For example, the compensatingmeans 23 comprise at least one elastic element, preferably aspring 24. - In this embodiment, the presence of the plurality of
planar sectors 16a-16e as described above is a secondary, optional feature.
Claims (18)
- A machine for making cigarette filters, comprising:- a forming beam (2) having an internal channel (7) extending along a main longitudinal direction (8) and adapted to receive a tow (3) of filter material impregnated with a plasticizing fluid, wherein the channel (7) has a transverse cross section which changes shape along the main longitudinal direction (8) in order to impart a desired shape to the tow (3) to form a continuous rod (4) of filter material;- porous conveyor means (9) configured to slide in the channel (7) of the forming beam (2) along the main longitudinal direction (8) and to carry the tow (3) along a feed path (10), the conveyor means being adapted to comply with the shape of the transverse cross section of the internal channel (7) and being at least partly wrapped around the tow (3),- at least one treatment station (14) located along the feed path (10) and comprising at least one nozzle (15) configured to blow a flow of steam into the internal channel (7) transversely thereto,characterized in that
the nozzle (15) comprises a plurality of planar sectors (16a-16e) positioned transversely to the internal channel (7), each planar sector (16a-16e) defining a planar flow orifice (17a-17e) placed directly in communication with a steam feed duct (18) positioned around the flow orifices and the internal channel (7), at least two flow orifices (17a-17e) having different thicknesses (Sa-Se) along the main longitudinal direction (8). - The making machine according to claim 1, characterized in that the nozzle (15) comprises at least two lateral planar sectors (16a, 16b) located laterally of the internal channel (7) relative to an inlet duct (19) of the feed duct (18), at least one front planar sector (16c) located between the inlet duct (19) of the feed duct (18) and the internal channel (7) and at least one rear planar sector (16d) located on the opposite side of the internal channel (7) relative to the inlet duct (19), wherein the lateral planar sectors (16a, 16b) have respective thicknesses (Sa, Sb) which are greater than the thickness (Sc) of the front planar sector (16c) and/or the thickness (Sd) of the rear planar sector (16d).
- The making machine according to claim 2, characterized in that the nozzle (15) comprises a compensating planar sector (16e) giving onto a portion of the tow (3) not wrapped by the porous conveyor means (9), the compensating planar sector (16e) has a thickness (Se) which is smaller than the thickness (Sc) of the front planar sector (16c) and/or of the thickness (Sd) of the rear planar sector (16d).
- The making machine according to claim 3, characterized in that the compensating planar sector (16e) has a thickness (Se) of between 0.20 mm and 0.25 mm.
- The making machine according to claim 3 or 4, characterized in that the compensating planar sector (16e) is located on the opposite side of the internal channel (7) relative to the inlet duct (19), at a central position between two rear planar sectors (16d).
- The making machine according to one or more of claims 2-5, characterized in that the lateral planar sectors (16a, 16b) have respective thicknesses (Sa, Sb) which are the same and preferably between 0.3 mm and 0.9 mm.
- The making machine according to one or more of claims 2-6, characterized in that the front planar sectors (16c) and the rear planar sector (16d) have respective thicknesses (Sc, Sd) which are the same and preferably between 0.25 mm and 0.8 mm.
- The making machine according to one or more of the preceding claims, characterized in that the planar flow orifice (17a-17e) is in communication with the feed duct (18) at a lateral section (T) of the feed duct (18).
- The making machine according to one or more of the preceding claims, characterized in that the planar sectors (16a-16e) are in mutual communication with each other, defining an uninterrupted planar flow orifice (17) around the internal channel (7).
- The making machine according to one or more of the preceding claims, characterized in that the feed duct (18) extends along a feed path (A) which is polygonal, preferably rectangular, in shape and wherein the planar sectors (16a-16e) run parallel to one side of the feed path (A).
- The making machine according to one or more of the preceding claims, characterized in that the planar sectors (16a-16e) run parallel to a steam flow direction (19a) along the inlet duct (19) of the feed duct (18).
- The making machine according to one or more of the preceding claims, characterized in that the nozzle (15) is an insert (20) placed around the internal channel (7) and comprising at least two portions (21, 22) made separately.
- The making machine according to claim 12, characterized in that the forming beam (2) comprises a base (12) and a cover (13) closable over the base (12) along a plane parallel to the main longitudinal direction (8) to form the internal channel (7) and in that the portions (20, 21) of the insert (20) are associated with the base (12) and the cover (13), respectively.
- The making machine according to claim 13, characterized in that it comprises compensating means (23) interposed between at least one portion (21) of the insert (20) and the cover (13) and/or the base (12), respectively, the compensating means being configured to keep the position of the two portions (21, 22) relative to each other unchanged when the working distance between the base (12) and the cover (13) is changed.
- The making machine according to claim 14, characterized in that the compensating means (23) comprise at least one elastic element, preferably a spring (24).
- The making machine according to one or more of claims 12 to 15, characterized in that the two portions (21, 22) are coupled at a plane parallel to the main longitudinal direction (8).
- A method for making cigarette filters, comprising the following steps:- inserting a tow (3) of filter material impregnated with a plasticizing fluid into an internal channel (7) of a forming beam (2), wherein the channel (7) extends along a main longitudinal direction (8) and has a transverse cross section which changes along the main longitudinal direction in order to impart a desired shape to the tow (3) to form a continuous rod (4) of filter material,- carrying the tow (3) along a feed path (10) through the agency of porous conveyor means (9) configured to slide in the channel (7) of the forming beam (2) along the main longitudinal direction (8), wherein the conveyor means comply with the shape of the transverse cross section of the internal channel (7) and are at least partly wrapped around the tow (3),- blowing a flow of steam into the internal channel (7) transversely thereto by means of a nozzle (15) located along the feed path (10), characterized in thatthe step of blowing the steam comprises the step of differentiating the thickness (Sa-Se) of an orifice (17a-17e) for the flow of steam through the nozzle (15).
- The method for making cigarette filters according to claim 17, characterized in that the thickness (Sa-Se) of the orifice (17a-17e) for flow through the nozzle (15) is differentiated according to the position relative to an inlet duct (19) of a feed duct (18) for the steam jet.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ITUB20160197 | 2016-01-21 | ||
PCT/IB2017/050237 WO2017125849A1 (en) | 2016-01-21 | 2017-01-17 | Machine for making cigarette filters and method for making cigarette filters |
Publications (2)
Publication Number | Publication Date |
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EP3405049A1 EP3405049A1 (en) | 2018-11-28 |
EP3405049B1 true EP3405049B1 (en) | 2020-03-04 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP17704538.2A Active EP3405049B1 (en) | 2016-01-21 | 2017-01-17 | Machine for making cigarette filters and method for making cigarette filters |
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EP (1) | EP3405049B1 (en) |
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2017
- 2017-01-17 EP EP17704538.2A patent/EP3405049B1/en active Active
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