Gravure roll printing process for adhesive application for...

Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor

Reexamination Certificate

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Details

C156S291000, C427S208600, C427S428010, C118S206000, C118S304000

Reexamination Certificate

active

06531025

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a process for making disposable absorbent articles such as sanitary napkins, panty liners, catamenials, incontinence inserts, and diapers for adults or babies. In particular the present invention relates to a process for the manufacture of disposable absorbent articles comprising two component materials which are adhered to each other, which utilises an improved gravure roll printing process to provide the adhesive.
BACKGROUND OF THE INVENTION
Absorbent articles such as sanitary napkins, panty liners, catamenials, incontinence inserts and diapers for adults or babies are commonly provided with an adhesive on their garment-facing surface to attach them during their usage period to a garment of the user. In particular sanitary napkins and panty liners are commonly provided with a pressure sensitive, hotmelt, adhesive which attaches to the undergarment of the wearer and thereby improves fit and comfort of the product for the wearer, called panty fastening adhesive. These adhesives are typically covered with a release paper prior to use.
More generally absorbent articles are provided with adhesive areas in order to combine the components which ultimately make up part or the whole of the absorbent article. In particular, multi-layer structures forming the topsheet, core or backsheet are often combined by adhesives called construction adhesives. The combining of the topsheet, the core and the backsheet to each other also can be accomplished by adhesives.
Typically these products are made by high speed machinery. The machinery includes equipment which adds the adhesive in a very fast and efficient manner, ensuring consistency of the absorbent products over large quantities thereof.
A common way of providing an adhesive is by application by slot-coating or spraying of the adhesive onto a continuously conveyed thread of material. The surface of this material, coated with adhesive, is then joined to another material forming all or part of the disposable absorbent article. This adhesive application method allows adhesive application with contact between the apparatus and the material to be coated, in particular for thermoplastic films or nonwoven materials often used in disposable absorbent articles which are very heat sensitive and can be incompatible with adhesives which require high melting temperatures.
An alternative method of adhesive application to material used in absorbent articles is a screen printing method. In the screen printing method, an adhesive is applied to the inside of a rotating roll having apertures. This roll, also called a screen, is contacted with the continuous conveyed thread of material such that adhesive is transferred through the holes of the material. In this case the screen is indirectly heated using infra-red radiation whereby the screen and to some extent the adhesive is heated.
Another alternative application method for adhesive is to render one of the materials used in the production of absorbent articles adhesive. This can be carried out in a separate step independent and long before use of the material in the article. For example adhesive tape or film, as used on baby diapers, have one adhesive surface and one non-adhesive surface. The adhesive surface is not firmly attached (or at least releasably attached) to the non-adhesive surface by winding the tape or film up into a roll. Upon use of the material the roll is then unwound to present the adhesive surface to the material to which it is intended to attach the tape or film.
For example U.S. Pat. No. 5,064,492 provides in this manner an impermeable film onto which a particular adhesive, which is said to be non-blocking below about 43° C. (110° F.), is printed. The adhesive is provided to the film by a patterned printing roll and a cooled counter roll or a series of such printing units if patterns in the adhesive are desired. The winding of the adhesive coated film is conducted below the blocking temperature.
This method of providing pre-coated film adds multiple complexities to logistics, storage and final manufacturing of disposable articles. Even accidental heating of any portion of the pre-coated roll would render it useless (self adhesion). Also all the benefits of the positioning accuracy of adhesive printing are lost in the alignment difficulties associated with film unwinding. Furthermore, the adhesive has to be heated on the film to return it to a state of adhesivity such. that added energy consumption is paired with a probability of melting through the underlying film material. Also this heating of the adhesive causes degradation due to the added heating/cooling cycle.
One common drawback of all the above mentioned adhesive application processes is their inflexibility, inaccuracy relative to the shape of the adhesive to be applied and that they essentially can only provide the adhesive continuously. Alternatively, on/off systems for coating or spraying not only have the drawback of delay in their systems response but also generally the problems associated with accelerating and decelerating mass streams. For hollow drum screen printing it is possible to create a pattern in the screen which would allow to create adhesive patterns. However, this is limited in that the screen has to provide a fairly even distribution of adhesive application sites (holes) in order to exclude temperature variations resulting in unstable application processes. Also adhesive screen printing cannot provide an even, full surface adhesive coverage due to the maximum apertured dimensions and total open area of such a screen in respect to its stability.
Yet another alternative manner that can be utilised to apply adhesive to a surface requires the utilisation of printing rolls. Such rolls are described in for example EP 745 433 and U.S. Pat. No. 5,417,789. The latter discloses a continuous process for the manufacture of absorbent pads which requires the application of an adhesive to a barrier layer's outer surface utilising a rotary roll print process. Similarly, U.S. Pat. No. 3,327,708 discloses a laminated non woven web wherein a lightweight cellulose wadding web is bound to a web of synthetic fibres by printing adhesive in a regular open pattern onto the wadding. Likewise GB 2 134 420 and WO 94/29524 describe modified adhesive transfer cylinders to apply adhesive to a continuous web.
However, whilst the utilisation of roll printing in principle also allows for the application of adhesives in patterns on surfaces, the process still has a number of problems associated with it. Typically, the print roll is continuously supplied with adhesive from an adhesive dip bath into which the roll is partially submerged and in which it is rotated. Naturally, the adhesive needs to be supplied in a large excess to allow the print roll to rotate through the adhesive bath and become coated with the adhesive. This of course requires a large amount of energy to be expended particularly in order to maintain the bath and adhesive at the required temperature. Moreover, the rotation of the roll within the bath causes the formation of air bubbles within the adhesive bath which results in the formation of foam. The foam is transferred to the roll and thereby results in the uneven distribution of the adhesive on the roll and consequently onto the substrate, even after scraping. Furthermore, the foam also collects on the scraper itself and is not readily removed therefrom whilst the process is operational. As a result, the process cannot be operated continuously, but, requires regular interruption in order to remove the excess adhesive collected at the scraper.
Yet another problem with the current roll printing process is that the amount and distribution of adhesive which is deposited from the print roll onto the substrate is extremely difficult to control and typically only about 30% of the adhesive contained on the roll is transferred resulting in a highly inefficient process. The amount of adhesive deposited onto the substrate is dependent upon, amongst others, the cohesive proper

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