The present invention relates to a method and a device for supplying filter material to a filter rod forming machine.
In particular, the present invention relates to a method and a device for supplying filter material to a forming machine of “special” filters provided with a peripheral axial portion surrounding a central axial portion, the nature thereof is different from that of the peripheral axial portion.
By way of example, the central axial portion may consist of a duct of any cross-section; of a continuous wire impregnated with any filter and/or flavouring and/or coloring material; of filter material of different color and/or differently drugged, etc.; or of a series of cavities, each accommodating a flavouring capsule.
In the tobacco industry, it is known to implement a continuous filter rod using a forming machine provided with an inlet unit, the function of which is to unwind, from a bale of compressed filter material, a continuous tow consisting of a bundle of curled fibers of filter material; expand the tow until it takes the shape of a flat band by subjecting it to axial and cross stretching operations, through which the filter curling is staggered with respect to each other; and supply the band to an inlet station of the forming machine by means of a supply device adapted to transversally deform the band so as to transform it into a continuous cord generally having a cylindrical section. A possible “drugging” of the filter material by the addition of flavours, colorants or other additives normally occurs by suitably treating the band of filter material before the latter enters into the supply device and is deformed for forming the continuous filter rod. A common technique of “drugging” treatment of the band of filter material consists, for example, in depositing additive material in the form of a continuous layer or a discrete sequence of sediments on the upper surface of the band so that, when this is deformed by the supply device, the additive material remains incorporated into the filter rod.
According to a different technique, known from U.S. Pat. No. 3,910,166, before supplying the band to the supply device, the band “drugging” treatment includes cutting the band in longitudinal direction so as to form two strips, depositing a layer of additive material on one of the strips and overlapping the strips on each other so as to form again a band of filter material to be supplied to the supply device for forming the filter rod.
The resulting continuous rod is then cut into segments, normally having a multiple length of a normal filter, by means of a rotating cutting head.
If special filters of the above-described type are to be manufactured, it is known to provide, at the inlet station of the forming machine, a forming device of said central axial portion. This device may comprise a mandrel for making an axial duct of any section, or a tubular probe associated with a supply of a continuous wire or of a particulate material consisting, for example, of a flow of flavouring capsules or a flow of granules.
Moreover, if special filters of the above-described type are to be implemented, and for the precise purpose of perfectly centering said central axial portion with respect to said peripheral axial portion, it is known to equip the forming machine with two inlet units, which once the respective “tows” have been picked up from respective bales and have been subjected to the above-described processing series, supply the respective continuous cords so as to tighten said probe between each other as a “sandwich” and keep it perfectly centered.
A similar way of proceeding is not always effective and free from drawbacks.
In the first place, with the exception of the axially pierced filters, implementing the peripheral portion of a special filter capable of producing an acceptable pressure drop using two “tows” often is an expensive operation and not always possible since “tows”, which are characterized by the titer and number of fibers they are made of, are only available in a limited number and it is not always possible to find a “tow” on the market capable of forming a half peripheral portion of a “special” filter having the desired pressure drop values; moreover, such a “tow”, when available, normally is relatively expensive.
In the second place, since it is not possible to find two identical “tows”, since the two “tows”, even if identical by titer and number of fibers, cannot have an identical “warehouse history”, the two parts of the peripheral portion obtained by using these two “tows” have partly different physical-chemical features. Especially in the production of filters for “thin” cigarettes, such “differences” may be a different response of the two “tows” to treatments, with consequent offset of the central axial portion; and in ay case they could cause, in a short time, the onset of internal tensions by effect of which the resulting filter segments tend to get deformed (they normally bend) and to become unusable for subsequent processing.
The object of the present invention is to provide method for supplying filter material to a filter rod forming machine, which method allows the above-described drawbacks to be eliminated.
A method is implemented according to the present invention, for supplying filter material to a filter rod forming machine according to claim 1 and preferably, to any of the following claims either directly or indirectly depending on claim 1.
Moreover, a device is provided according to the present invention, for supplying filter material to a filter rod forming machine according to claim 12 and preferably, to any of the following claims either directly or indirectly depending on claim 12.
The invention will now be described with reference to the accompanying drawings, which show some non-limiting embodiment examples thereof, in which:
a,
3
b and 3c show some alternative sections along line III-III of
With reference to
The inlet unit 3 is of the known type and is adapted to unwind, from a bale (not shown) of compressed filter material, a continuous “tow” (not shown) consisting of a bundle of curled fibers of filter material; and to expand the tow (not shown) until it takes the shape of a flat band 7, which is fed to the supply device 1 through mouthpiece 2 and in an advancement direction 8.
The supply device 1 comprises an inlet roll 9, which is transversal to the advancement direction 8, is parallel to band 7 exiting from mouthpiece 2, and is mounted on the inlet unit 3 immediately downstream of mouthpiece 2 by the interposition of a movable fork 10 adapted to allow the adjustment of roll 9 with respect to mouthpiece 2.
The supply device 1 further comprises a deviating roll 11, which is motor-driven by a motor 12, is parallel to roll 9 and is supported in fixed position by a frame 13. Roll 11 is arranged downstream of roll 9 in the advancement direction 8 and with roll 9, it defines a plane P, along which band 7 is made to advance in use. Above plane P, the position of which is adjustable through roll 9, which serves as tensioning roll for band 7, the supply device 1 comprises a cutting unit 14 in turn comprising a motor-driven shaft 15 parallel to rolls 9 and 11 and mounted on frame 13 for oscillating about its axis, a lever 16 keyed on an end of shaft 15, and a guide 17 extending from the free end of lever 16 parallel to rolls 9 and 11 and directly arranged above plane P.
The cutting unit 14 further comprises at least one cutting head 18 mounted in adjustable position along guide 17 through the interposition of a slide 19 provided with a locking device 20 and comprising a cutting disc 21 actuated by a motor 22 and arranged in a plane perpendicular to plane P and parallel to the advancement direction 8.
In the embodiment example shown in
According to some of the variants shown in the accompanying figures (for example in
In any case, each cutting disc 21, when in the cutting position, cooperates with a respective counter-cutting ring (not shown) idly carried by a counter-cutting roll 23 parallel to rolls 9 and 11 and arranged beneath plane P directly beneath guide 17.
Beneath plane P, the supply device 1 comprises a further return roll 24 parallel to rolls 9 and 11 and arranged beneath roll 9, and a final return unit 25 arranged beneath roll 24 and comprising at least one roll 26 parallel to roll 24. In particular, the number of rolls 26 provided in the return unit 25 is equal to the number of cutting heads 18 used. In particular, in the case of the embodiment of
As better shown in
As better shown in
Finally, each pneumatic device 31 comprises a funnel 35, which is connected to an output end of duct 32, is provided with lateral holes for venting the air fed into duct 32 from the supply circuit 34, and is provided with a top opening 36 facing the inlet of funnel 28.
As better shown in
In use, band 7, which in the advancement direction 8 protrudes from mouthpiece 2 of the inlet unit 3, rests on roll 9; then, it winds on roll 11 (in counter clockwise direction in
During its advancement along plane P, band 7 is engaged by the cutting unit 14 which, in the case of the embodiment shown in
In general, the cutting head 18 is positioned and locked along guide 17 so as to obtain two strips 39 having substantially the same width; however, it should be noted that a different adjustment of the position of the cutting head 18 along guide 17 is always possible, and that the differences in the order of 20-30% in the width of the two strips 39 obtained do not affect the correct forming of filters 6 at all.
At the output of roll 24, the paths of the two strips 39 are separated from each other by the return unit 25; in particular, one of the strips 39 is directly fed to the inlet of duct 32 of the respective pneumatic device 31, while the other strip 39 winds about roll 36 before arriving at the inlet of duct 32 of the respective pneumatic duct 31. Each strip 39, crossing the respective pneumatic device 31, is impinged by a plurality of compressed air jets exiting from the pneumatic distributor 33, which advance strip 39 towards funnel 28 of the forming beam 29 and at the same time, they expand it so as to transform it into a substantially cylindrical cord 40.
The two cords 40 are fed into funnel 28 so as to arrange in symmetric positions with respect to probe 37, occupy all the space left free, into the forming beam 29, by probe 37, and produce a tubular filter 6 having a perfectly centered axial hole, the shape of whose section depends on the shape of the section of probe 37.
It is clear that in the case of the embodiment of
With regard to what described above, some remarks should be made:
The supply device 1 shown in
In this case, the forming machine 5 preferably is a traditional machine for the production of paper wrapped filters but nothing prevents using a machine for filters without paper wrapping.
In this case, moreover, using different additives for the two cords 40 and for wire 43 and moreover, optionally using strips 39 having different width, it is possible to not only control the pressure drop through the filter, but also to create a preferential passage path of the smoke through the filter.
The supply device 1 shown in
In this case, the forming machine 5 may be a traditional machine for the production of paper wrapped filters or a machine for filters without paper wrapping.
The embodiment shown in
In other words, using the supply device 1 in association with a forming machine 5 for filters without paper wrapping and a tubular probe 37, it is possible to implement a continuous filter rod without wrapping provided with a perfectly centered axial core of a particulate material, for example activated carbon, the permeability of which to the smoke drawn may be changed as desired by varying the dimensions of the granules and their relative supply speed.
The supply device 1 shown in
In the embodiment shown in
Similar to the embodiment of
Differently from the embodiment of
Finally, according to a variant not shown, the cutting disc 21 or the cutting discs 21, if two or more cutting heads 18 are provided, may be replaced with any other cutting device suitable for the purpose, for example a compressed air blade.
Number | Date | Country | Kind |
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BO2012A000106 | Mar 2012 | IT | national |
BO2012A000413 | Jul 2012 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2013/051745 | 3/5/2013 | WO | 00 |