DE19616019A1 - Cigarette filter or paper perforating - Google Patents

Abstract

Two adjacent bobbins are treated simultaneously on a roll-over device made up of brake (19) and coiler (20), and are perforated electrostatically at the same time in two separate but identical perforators (22) in zone, area or line form, or again perforated by laser beam. The cascaded perforators fit into the two strips off the bobbins in the feed direction with each strip allocated zonally separated porosity finders (24-27) and re-adjusters. The cascaded perforators fit into the bobbin strips and the electrode pins (29) used in the electrostatic method are HT-circuited at right angles to the strip length leading away over both the bobbin strips. If the pins alternate between right angle and lengthways arrangement, their HT-circuits also extend in these directions, normal and lengthways to the strip path. The entire perforating action is carried out by interconnected electrodes (22,23).

Description

The invention relates to a method and its device for simultaneous perforation of running strip tracks, the so-called called Bobinenbahnen, which before and after the perforation process from two completely separate, i.e. previously cut, bobbins rolls consist and the winder and perforator are spaced go through facility.

Under running strip or bobbin lanes are related to understand the present invention in particular paper webs hen, such as B. cigarette, mouthpiece, coffee filter or Kraft papers, at least in the area of surface perforation or perforations formed in the running or transverse direction of the web traces of a certain degree of gas permeability.

The perforations can be electrostatic or laser technology.

Various perforation methods are known with which surface or zonal perforations in running webs are feasible. The electrostatic perforation created by Spark discharges statistically irregularly distributed, mostly in holes or rows of holes of different sizes that vary in size Arrangement. Laser perforations are through a regular hole picture with the same hole sizes and shapes or with a so-called marked spray laser hole pattern.

The perforations, which are mostly invisible to the outside, are in front are required for gas ventilation of the material webs, e.g. B. for air bypass in filter cigarettes, for air escape with bulk goods filling, the air bubble dissolution with adhesive pro Zessen etc. can be flat, zone-like as well as linear and in any distances within the tracks, where the hole sizes can be 10-250 µm.

Surface perforations enable hole densities of up to 2 million. Pores per m² and zone arrangements with widths of 2-8 mm can Generate up to 300 holes / cm² without being affected the material-specific properties such as, fiber structure, solid appearance, appearance or coloring takes place.

From EP 0.036.630 it is known, for example, that two broad, overlapping lanes simultaneously and within one fun kenstreckeneinrichtung are perforable.  

Furthermore, the methods of DE 42.43.721 A1 and EP show 0.007.488 different surface perforation options with each because of a train. Another method of introducing two perforation zones in a narrow tip paper bahn, the so-called Bobinenbahn, is the EP 0.056.223 to take.

All of the methods mentioned have in common that only ever for a web, with a rewinder and perforation device or for two broad tracks one above the other or in opposite directions, the finishing process takes place. It should be noted that for two overlapping tracks some disadvantages arise and the control stabilization of individual perforations perforations are not possible.

It is therefore easy to see that in the procedures given and devices a higher volume of perforated Bobs or rolls cannot be achieved on a machine because the perforation performance and physical size installed perforation process increases the web speeds limit. In production practice, therefore, there are too many Additional machines required.

The invention is therefore based on the object, a method and to describe a device with which it is possible to the Pro Production of bobbin perforation systems under bebe keeping the same rewinder and the required quality standards, such as degree of porosity, scatter, visibility, position nation etc., significantly increase.

The inventive method for moderate perforation of dop pelbobinen accomplishes the above task through the characteristics of Main patent claim 1. Then two narrow webs, the named bobbin lifts, side by side at the same time positioned on a common rewinder, passed through the perforation device and for winding brought. To maintain the required porosity stability and the normal operation run through the two narrow-gauge railways the measuring gap of the optical porosimeter, which is directly behind the perforation device. In this way, 4 Perforation zones or surface perforations in two at the same time separately running bobbins.

An exorbitant advantage of this method is that the configured for single bobbin operation, and with various Auxiliary equipment provided rewinder systems now double bo bines with the same performance and quality standards perforie can, which is equivalent to doubling the output. There for these production plants the previously used and ge cut bobbins are not used Work steps necessary before or after the finishing process. Likewise, the process changes for the machine operator only insignificant, so that this continues two plants at the same time can look after.  

The task described above is also carried out by a Vorrich device for the moderate perforation of double bobbins with the characteristics len of claim 8 solved. After that the device is like this designed that both narrow webs on the same Ab unwinding, via a Perfora web fixing device tion station can be fed. After the perforation process through both narrow webs run the measuring column of the optical porosimeter to over the second fixing device for common winding get.

Practical tests have confirmed that both narrow webs too with different path behaviors such as heights, bombs etc. of the unwinding bobbins, fixed next to each other and lane are controlled by train.

There are now various ways of teaching the present the invention in an advantageous manner and continue to form. For this purpose, on the one hand, to the in the claims 1 to 12 described versions, on the other hand to the following Explanation of an embodiment of the invention using the refer to three drawings. In connection with the explanation of the preferred representation example of the invention and means the drawings also become generally preferred configurations the teaching explained.

The drawings show in detail:

Fig. 1 is a top view of the double bobbin track

Fig. 2 shows the web guide in the rewinder

Fig. 3 is a top view of the perforation device.

In Fig. 1, the double bobbin lanes 1 and 2 are shown with their guideways. On the common unwinding device, both individual bobbins 1 and 2 are pressed against the plane plate 11 on the unwinding axis 8 by means of the clamping nut 9 and the spacer clamping ring 10 . The arranged in the web direction Fixiereinrich lines 12 and 13 are used for exact web positioning. In the perforation device 3 , the entangled electrode devices 23 and 29 generate two perforation zones 4-7 on each bobbin strip, the degree of porosity of which with the downstream porosity measuring device 17 and 18 , zone-separated 24-27, is detectable and readjustable. Instead of the four perforation zones, perforated lines or surface perforations according to this scheme are also conceivable. On the roll-up mandrel 14 , the sleeve pressing and positioning of the webs 1/2 takes place in the same way via the spacer ring 16 and the clamping nut 15 .

Fig. 2 shows the preferably web guide in such Bobi nenumrolleranlage for single and in particular for the inventive kind Doppelbobinen. Lane 1 and 2 of the two unwinding reels 19 pass over guide rollers 21, the fixing unit 12 and into the nip of the perforating device 3. Here it is quite conceivable to cascade not only one but also two electrode devices 29 and 23 for performance reasons. After the perforation process, the in-line porosity measurements described above are carried out for the running narrow webs.

Before the support roller winding 28 , a Fixierein device 13 is also switched to achieve exact web guidance as analogous to the unwinding and perforating process for the winding process, and to ensure perfect winding quality.

3, the perforating means 22 and its possible Elektodenstiftverschaltungen is exemplified in Fig. For the two reels strip 1/2 shown. At the electrodes 22, which are interlaced in the web running direction, arcing occurs in the electrostatic perforation by applying high-voltage pulses, which produce the position-determined perforation zones 4-7 , rows of holes or surface perforations. In this case, there are always two electrode pins 29 , 30 , 32 , through the gap of which the paths to be explored are passed. The pairs of electrode pins are preferably electrically connected in series and in different groups.

In practice, it has proven particularly advantageous to supply 4 electrode pins connected in series 32/33 with a high-voltage device. This group of four usually takes place within an electrode and a perforation zone in order to carry out the readjustment process via the spark repetition frequency or pulse width zone separately.

In the device according to the invention, it is now possible to transfer the group of four to all 4 electrodes 22 arranged next to one another, so that an electrical transverse connection 31 instead of a series connection results. This has the great advantage that changes in perforation within a perforation zone 4-7 can be compensated by means of the cross-connection, provided that the electrical conditions of the supply and generation branches are largely constant or reproducible and no in-line porosity measurement is provided for the system.

Improved production results can be done with this pen wiring variant for surface perforations in the way he aim that u. a. also the variation coefficients of the measured significantly reduce its porosity.

Finally, it should be emphasized that the inventive teaching by the above exemplary embodiments are only explained, each is by no means restricted.

Rather, the teaching of the invention also allows other methods steps to moderate perforation of double bobbin lanes, which have other design features.

Claims (12)

1. Process for the moderate perforation of double bobbin webs, ie strip webs such. B. cigarette, mouthpiece, coffee filter or kraft papers, wherein the perforations ( 4-7 ) can be zone, surface or line-shaped, characterized in that two separate, ie previously cut, bobbins ( 1/2 ) run side by side and treated at the same time on a common rewinder, consisting essentially of a brake ( 19 ) and winding unit ( 20 ). 2. The method according to claim 1, characterized in that two juxtaposed bobbin strips ( 1/2 ) are perforated at the same time on two separate and identical perforation devices ( 22 ) zone, surface or line-shaped electrostatically or with laser beams. 3. The method according to claim 1 or 2, characterized in that perforation devices cascaded in strip paths ( 1/2 ) in the running direction ( 22/23 ) pass. 4. The method according to claim 1 or 2, characterized in that for both bobbin strips ( 1/2 ) zone-separated porosity measurements ( 24-27 ) and readjustments take place. 5. The method according to claim 1 or 2, characterized in that all electrode pins ( 29/32 ) in the electrostatic Ver drive a transverse to the web direction and over both strips ( 1/2 ) leading, electrical high-voltage circuit ( 31 ). 6. The method according to claim 1 or 2, characterized in that the electrode pins ( 29/32 ) in the electrostatic procedural ren a combination of transverse and longitudinal to the web running direction and over both strips ( 1/2 ) leading electrical high-voltage circuit ( 31/33 ) exhibit. 7. The method according to claim 1 or 2, characterized in that in the electrostatic method, all 4 perforation zones ( 4-7 ) by electrodes ( 22/23 ) folded in the web running direction. 8. Device for moderate perforation of double bobbin webs, ie strip webs ( 1/2 ) such as. B. cigarettes, Mundstückbe lag-, coffee filter or kraft papers, the perforations can be zoned, ( 4-7 ) flat or linear, characterized in that two separate, ie previously cut, bobbins ( 1/2 ) unwound from a common unwind ( 19 ), guided side by side and simultaneously fed to the per forationseinrichtung ( 22/23 ) and rolled up again on the common reel ( 20 ) as two separate reels. 9. The device according to claim 8, characterized in that at least two fixing devices ( 12/13 ), one after the roll-up device ( 12 ) and one before the roll-up device ( 13 ) the two strip webs ( 1/2 ) was in a predetermined From lead to each other. 10. Apparatus according to claim 8 or 9, characterized in that at least two spacer rings ( 10/16 ) on the roll-up and roll-up device from each separate bobbins ( 1/2 ) tension or center and at the same time set the predetermined distance. 11. The device according to claim 8 or 9, characterized in that in the electrostatic method, the electrode devices ( 22/23 ) have pluggable bridges for electrical high-voltage contacting. 12. The apparatus of claim 8 or 9, characterized in that in the electrostatic process, the zone position, its width, and in the case of surface or line perforations, the hole distribution over the web width by ver in the web running direction limited electrodes ( 22/23 ) takes place.