EP1389432A1 - Method for adjusting the diameter of a cigarette filter - Google Patents

Abstract

Method for adjusting the diameter of a cigarette filter (28) in which the diameter of a filter is measured, an anticipated change to the diameter is calculated and the diameter is adjusted using the anticipated change. The anticipated change is determined using a formula that takes into account the theoretical and measured filter diameters and the theoretical and measured filter moisture content. An independent claim is made for a device for adjusting the diameter of a cigarette filter comprising a filter diameter measurement device (37), an evaluation device (42) for determining the anticipated diameter change and an adjustment device (26) for adjusting the filter diameter.

Description

The invention relates to a method and an apparatus for adjusting the Diameter of a filter for rod-shaped articles of the tobacco processing Industry, for example for cigarettes.

Such methods and devices are from the prior art known. For example, DE 3414247 by the applicant, which the US 4,543,816 corresponds, and DE 3806320 of the applicant of such Methods and devices. The procedures and shown there Devices measure the filter diameter during the manufacture of the Filters and then regulate the based on the measured filter diameter Filter manufacture such that a constant filter diameter at the outlet a filter manufacturing machine, also called a filter maker is provided.

The object of the present invention is to implement the known methods and Improve devices.

This object is achieved by the subjects of independent claims solved.

The advantages of the invention are in particular that Filter diameter at the point of further processing, i.e. usually on Filter attachment, very precisely a desired target diameter can be set accordingly. This is important because at Cigarette filters of large diameter (or derived from the circumference) Significance for the pull resistance and the condensate retention when pulling on the cigarette and also for the process of attaching the filter to the Tobacco stick is.

Deviations can already occur in the filter attachment process at the filter attachment from a few 1/100 mm from the nominal diameter to an additional, lead to undesired ventilation in the area of the bond.

The invention includes the finding that exact compliance with the However, this is one of the reasons why the diameter of the filter during manufacture is difficult because the filter diameter depends on the humidity of the material used to make the filter, e.g. a cellulose acetate tow, is.

That has certain consequences. Because almost always the moisture of the tow, ie the actual tow moisture (F _ist ) and the equilibrium moisture, ie the moisture of the tow, which would be adjusted according to the humidity of the ambient air, do not match. However, the filter production machines mentioned at the beginning produce filters with a diameter that corresponds to the actual tow moisture (F _ist ).

If the diameter of the filter is now used for control purposes e.g. in one measurement tower operated outside the production line the filters a certain time before and / or during the measurement Indoor climate of the measuring tower exposed, which mostly not Indoor climate corresponds to the filter production and thus change their Humidity.

The moisture change is also between the elapsed time Production and measurement dependent, but runs mostly because of highly porous paper cover of the filter relatively quickly. This changes the diameter of the filter, so that the control unit on the measuring tower detects a different diameter than the diameter measuring device on the Filter making machine. Corrective measures initiated on The output of the filter manufacturing machine is then unauthorized.

On the way from the filter manufacturing machine to the filter attachment machine the filters are also exposed to the indoor climate for a long time and will assume the corresponding equilibrium moisture and thus also change their diameter.

Eventually, with different towel moisture levels, it will be in stock serving tow bales when regulating the filter diameter to one constant value at the output of the filter maker is another Adjust the diameter of the filter attachment if the filter is there too equilibrium moisture influenced by the original tow moisture accepts.

The expected change will therefore solve these problems preferably based on a comparison between the moisture of the Filter material with the relative humidity of the ambient air future location of the filter, e.g. at the filter attachment, determined.

To determine the expected change, for example, the formula D _soll = D _ist + a (F _soll - F _ist ) is used, where D _{soll is} the nominal diameter of the filter, D _is the actual diameter of the filter, F _is the nominal moisture of the filter material, ie the relative air humidity of the ambient air of the future location of the filter, a is a material-dependent size (e.g. for cellulose acetate tow of the specification 3.0 Y 35 the size is 0.0017) and F _is the actual moisture of the filter material. For this purpose, the relative air humidity of the ambient air of the future lounge area can be assumed as known or measured when determining the expected change.

The moisture of the filter material, the actual moisture, can in turn be in one Range of measurement of the filter diameter and / or in the range of Stock and / or in an area before the production of the filter on the filter material used to manufacture the filter can be measured.

In a particularly preferred embodiment of the invention, a Set target diameter of the filter and the setting of the Diameter taking into account the expected change made such that despite the expected change in the Target diameter is reached. The desired diameter is preferred in the future lounge area reached or at a predetermined Processing time of the filter reached.

Further preferred embodiments of the invention are in the Subclaims described.

The invention will now be explained in more detail with reference to the drawing.

Fig. 1

eine schematische Ansicht einer Vorrichtung nach der Erfindung;

Fig. 2

eine vergrößerte Darstellung der verwendeten Messanordnung; und

Fig. 3

einen Graph, der die Sorptionsisotherme von üblichem Filtertow zeigt.

Show it:

Fig. 1

a schematic view of a device according to the invention;

Fig. 2

an enlarged view of the measuring arrangement used; and

Fig. 3

a graph showing the sorption isotherm of conventional filter tow.

In Fig. 1 is an example of a device according to the invention Machine for producing a filter train, especially for the Manufacture of filters for cigarettes and the like smokable articles, in a schematic side view. This device, too Called filter maker, it consists of two main assemblies, one Processing device 1 for fed in an endless filter material strip Filtertow 4 and a processing device 2 for the production of enveloped Filter rods.

The processing device 1 has a pair of rollers 3 for continuous Pulling off an endless filter material strip 4 from a bale 6. After removal from bale 6, the filter tow strip passes on his Path to the pair of rollers 3, on which it is guided over a deflection roller 5, two Air nozzles 7 and 8, which are used to spread and loosen the tissue of the Serve filter material strips. The roller pair 3 are followed by two more Roller pairs 9 and 11, between which there is an application device 12 for applying plasticizer to the between the roller pairs 9 and 11 filter material strips 4 which are laid out. Of the individual rollers of the roller pairs 9 and is advantageously each one Groove roller on its circumference, while the counter roller one has smooth surface made of elastic material. All roller pairs 3, 9 and 11 are from a main drive motor 13 via belt drives 13a to c drivable. Instead of a main drive motor 13, one or several separate drives can be provided for the roller pairs.

The speed of the pair of rollers 3 is less than that of the pair of rollers 9, so that the roller pairs 3 and 9 form a stretching device. The The speed of the pair of rollers 3 can be changed via a gear 14, the Translation can be changed by a controllable adjusting motor 16 can. The speed ratio between the roller pairs 3 and 9 specifies the degree of stretching of the filter material strip 4. In the shown In the exemplary embodiment, the brake rollers 3 are driven. You can also be designed as drag rollers, which due to Frictional conditions act as brake rollers.

In the application device 12 is on the spread and stretched Filter material strips 4 in a predetermined dosage Plasticizer liquid applied.

The prepared filter material strip 4 sprayed with plasticizer arrives over the pair of rollers 11 from the processing device 1 into one Inlet funnel 17 of the processing device 2, in which it summarized and deducted from a bobbin 18 and by means of a gluing device 19 provided with glue wrapping strips 21 is placed. The wrapping strip 21 and the summarized Filter material strips 4 arrive on a format belt 22, both of which Components through a format 23 that wraps the wrapping strip 21 puts the filter material strand around and thereby an endless filter strand 24 forms. This passes through a seam plate 26 in which the adhesive seam is dried. Subsequently, the filter strand 24 by means of a knife apparatus 27 continuously cut filter rods 28, which by an accelerator 29 can be transferred to a spin drum 31 in which they are conveyed in the transverse axial direction of conveyance. From the spin drum 31, the filter rods reach an offshoot belt 32, from which they are one Further processing or temporary storage can be supplied.

The plasticizer is supplied to the application device 12 by means of a Dosing pump 33 via a supply line 34 from a plasticizer supply 36th

According to the invention, a first and a second measuring device 37 or 38 provided. The first measuring device 37 is a pneumatic one Measuring device for the diameter of the filter strand 24, as in FIG. 2 shown in more detail. The first measuring device 37 is via a Evaluation device 42 with a servo motor 54 of the seam plate 26 connected. The diameter is determined, for example, on the in the applicant's DE 3414247 A1 already mentioned at the beginning way described. The disclosure of this document will hereby made the full content of the subject of the present application.

Fig. 2 shows schematically, as with the help of a measuring nozzle 37, the over a flow meter 52 and a control valve 53 with compressed air constant Pressure is supplied from a compressed air connection 55, the diameter is determined. One is also connected to the control valve 53 Overpressure protection 51. The corresponding signal is from the Flow meter 52 passed on to the evaluation arrangement 42.

33 with a measuring head 38 is designated, which on the basis of microwaves Moisture of the tow determined. This happens, for example, to those in EP 0 791 823 A2 of the applicant. The revelation this publication, which corresponds to the applicant's US Pat. No. 6,163,158 hereby made the full content of the subject of the present application.

In an evaluation arrangement 42, on the basis of what is shown in FIG and the relationship corresponding to the formula mentioned at the outset between actual tow moisture and relative humidity the diameter based on a given relative humidity, i.e. a nominal towel moisture, calculated and connected to the evaluation arrangement Display 56 is displayed. In a first variant, the Diameter control based on a currently measured target value Tow nominal humidity can be operated. In a second variant, a The target value for the nominal towel moisture can be entered and / or entered For example, a previously measured humidity at the entrance of a not filter piecer shown corresponds. From the actual value of the towel moisture on Filtermaker and the target value of the towel moisture at the filter attachment determines the Evaluation arrangement 42 for the diameter to be set on the filter maker the diameter control.

Connected to the display 56 via a line 66 and more precisely in FIG. 2 Also shown is an off-line test station 60 for testing the Filter rods 28. It consists of a magazine 61 for filter rods to be tested 28, a diameter measuring arrangement 62, a moisture measuring device based on microwaves 63, an evaluation arrangement 64 and a display 65th

Station 60 also determines the actual diameter and the nominal moisture corrected diameter.

It makes sense to display the display arrangement 56 of the filter production machine 2 in from which the samples were taken via the data line 66 with the off-line operated test station 60 to make a direct comparison of the measured and the corrected values of the filter diameter enable.

In Fig. 1, a variant is drawn in dashed lines, in which the measuring head 38 ' to determine the Tow moisture is attached where the Tow 4 from Bale 6 is pulled off to the towel moisture before making the To determine filter rods 28.

Claims (16)

Method for setting the diameter of a filter (28) for rod-shaped articles in the tobacco processing industry, comprising the steps: the diameter of the filter (28) is measured, An expected change in the diameter is determined, the diameter is set taking into account the expected change. Method according to claim 1,
wherein the expected change is determined on the basis of a comparison between the humidity of the filter material (4) and the relative humidity of the ambient air of a future area of the filter (28). Method according to claim 2,
where the formula D _soll = D _ist + a (F _soll - F _ist ) is used to determine the expected change, where D _{soll is} the nominal diameter of the filter (28), D _is the actual diameter of the filter (28), F _soll the nominal moisture of the filter material (4), F _is the actual moisture of the filter material (4) and a is a quantity dependent on the filter material. Method according to claims 2 or 3,
the relative humidity of the ambient air of the future lounge area is assumed to be known when determining the expected change. Method according to one of claims 2-4,
whereby the relative humidity of the ambient air of the future lounge area is measured to determine the expected change. Method according to one of claims 2-5,
wherein the moisture of the filter material (4) is measured in a range of measuring the diameter. Method according to one of claims 2-6,
wherein the moisture of the filter material (4) in the area of the supply (6) and / or in an area before the production of the filter (28) is measured on the filter material (4). Method according to one of the preceding claims,
wherein a set diameter of the filter (28) is set and the setting of the diameter is carried out taking into account the expected change in such a way that the set diameter is achieved despite the expected change. Method according to claims 2 and 8 and according to one of the preceding claims,
the target diameter being reached in the future stay area. Method according to claim 8 and according to one of the preceding claims,
wherein the nominal diameter is reached at a predetermined further processing time of the filter (28). Device for adjusting the diameter of a filter (28) for rod-shaped articles in the tobacco processing industry, comprising: a first measuring device (37) for measuring the diameter of the filter (28), an evaluation device (42) for determining the expected change in diameter, and an adjusting device (26) for adjusting the diameter taking into account the expected change. Device according to the preceding claim,
wherein the evaluation device (42) a second measuring device (38) for measuring the moisture of the filter material (4) and a comparison device (42) for comparing the moisture of the filter material (4) with the relative humidity of the ambient air of a future area of the filter (28) has to determine the expected change on the basis of a comparison between the humidity of the filter material (4) with the relative humidity of the ambient air of the future lounge area. Device according to the preceding claim,
wherein the second measuring device (38) is arranged adjacent to the first measuring device (37) in order to measure the moisture of the filter material (4) in a region of the measurement of the diameter of the filter (28). Device according to one of the two preceding claims,
wherein the second measuring device (38) is arranged adjacent to a supply (6) for the filter material (4) in order to measure the moisture of the filter material (4) in the area of the supply (6) and / or in an area prior to the manufacture of the filter ( 28) to measure. Device according to one of claims 11-14,
with a third measuring device for measuring the relative humidity of the ambient air of the future location area of the filter (28). Device according to claim 12 and according to one of claims 11-15, with one connected to the evaluation device (42, 60) Memory for storing a target diameter in order to Evaluation device (42, 60) the setting of the diameter to enable by the adjusting device (26) in such a way that despite the expected change in the future area of residence Target diameter is reached.

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