Article dispensing – Progressively destroyed cellular magazine-type supply source
Reexamination Certificate
2001-05-17
2003-06-03
Noland, Kenneth W. (Department: 3653)
Article dispensing
Progressively destroyed cellular magazine-type supply source
C221S026000
Reexamination Certificate
active
06571983
ABSTRACT:
The invention relates to a method for dispensing flat forms, such as labels, patches, stickers, transdermal therapeutic systems, medicaments for oral administration, etc. By controlled dispensing, the flat form can be transferred to a transport web and/or into a device suitable for producing a primary package.
Dispensing (transfer) of individual flat forms is known in principle. To do this, the individual flat forms first have to be made from an endless web. This is done, for example, by contour punching. Such an individual flat form must then be freed, if necessary, from any remaining punch material (so-called lattice stripping) and is then conveyed to a dispensing device, for example a deflector edge or deflector roller. It is also possible for lattice stripping and dispensing both to take place at the dispensing device.
The following problems can often arise in this type of procedure. If the material from which the endless web is made is very elastic, the individual flat form may be carried together with the remaining punch material round the deflector edge, and no dispensing takes place. The same problem can arise if the individual flat form has an adhesive underside.
Another problem, namely the lack of exact positioning of the flat form during dispensing, can occur if the flat form is so light that just a light puff of air, an undesired electrostatic charge or a rolling-up of the flat form can cause it to slip or twist on the web. A controlled dispensing of individual flat forms on a sharp deflector edge is then likewise not possible.
It is an object of the invention to make available a method and a device for controlled dispensing of a flat form. In doing so, the intention is to avoid the disadvantages which often arise in the prior art (dispensing problems, positioning problems).
The object is achieved by means of a method in which a web-like starting material comprising at least two layers is transported into a suitable punching device, the outer contour of the flat form is then punched out from the web-like starting material, at least one point between the flat form and the rest of at least one layer of the web-like starting material not being punched through, and finally the flat form is dispensed on a dispensing device, with a break being made at the previously unpunched point.
For this purpose, the starting material of the flat form (such as labels, patches, stickers, transdermal therapeutic systems, medicaments for oral administration) is first brought into a web form. This is done, for example, by coating underlayers (for example laminates) with flowable substances or substance mixtures and then drying them, by lengthways cutting of wide rolls of paper, metals or plastics, by rolling of a viscous composition, by hotmelt extrusion, etc. The web-like material can be made up of one, two or several layers. The web-like starting material can also include an adhesive layer. A preferred embodiment is a multi-layer web-like starting material for the production of a TTS which includes a layer containing the pharmaceutical active substance(s), an adhesive layer, if appropriate a membrane controlling the release rate, a backing layer and, to protect the adhesive layer, a protective layer (so-called release liner, e.g. of synthetic polymer or aluminum film). Using such a laminate including at least three layers (protective layer, active-substance-containing adhesive layer, backing layer), the contour of the patch can also be punched-in prior to the actual method steps according to the invention, in an additional (i.e. advance) punching step. In this advance punching step, only the backing layer, active-substance-containing adhesive layer and any other layers present are punched through, but not the protective layer. The latter is punched only in the subsequent steps after remains of the punched layers have been stripped off, the aim being to ensure that the contour of the patch is smaller than the contour of the protective layer, which in this particular case corresponds to the outer contour of the flat form.
Another preferred embodiment is a film-like medicament for oral administration, which can consist of a single nonadhesive layer.
In the first method step, the web-like starting material is transported into a suitable punching device. This can be done, for example, by means of a device which grips the web-like starting material via two opposite movable stamps, then advances it and thereafter releases it (so-called sled) or by means of a winding device located at the end of the web. This step can be discontinuous or continouous with a constant or variable speed.
In the second method step, the outer contours of the individual flat forms are punched in the web-like starting material in the suitable punching device. The term “punching” signifies the technical procedure by which a separating line is introduced into an object. Other terms used for this such as cutting, dividing, splitting, tearing etc. are intended to be included here too. In the final result, after such a procedure on two previously connected volume elements of a material, there is no longer any material join.
Examples of suitable punching devices known to the person skilled in the art are lifting punches (punching tool with strip-steel cut) and rotary cutting rollers. These punching devices have cutting edges which establish the outer contour of the individual flat forms. Another suitable punching device that can be used is a high-energy laser beam. This laser beam travels along the outer contour of the individual flat forms, and the material located there is vaporized. This second step can also be discontinuous or continuous with a constant or variable speed.
The punching in the suitable punching device is carried out so that either all the layers of the web-like starting material (that is to say the lowermost layer too) are punched, or, preferably when using two-layer or multi-layer web-like starting materials, at least the lowermost layer is not punched. This at least one layer then remains unpunched and can serve as transport web.
The particularity of punching the outer contours of the individual flat forms into the web-like starting material now lies in the fact that this contour is not punched completely from the respectively punched layers of the web-like starting material, but instead at least one point or just a few points of the contour are not punched, i.e. not separated through. At this point or points, therefore, after the second method step, there are still (tiny) bridges (holding points, connection pieces) in the respectively punched layers between the individual layers of the flat form and the remains of the web-like starting material of the respectively punched layer (or between the individual flat forms), which bridges have the technical function that the individual flat forms remain fixed (initially) at their position within the web-like material.
The position of these points (bridges, holding points, connection pieces) on the outer contour of the individual flat form depends on the geometric form of the latter and on its position within the web-like starting material. The position of this point/these points preferably lies in the rear part of the outer contour of the individual flat form. Rear part signifies that area of the individual flat form which, after the start of the dispensing of an individual flat form, is still located on that section of the web-like material lying between punching device and dispensing device (deflector roller, deflector edge).
However, the points (bridges, holding points, connection pieces) on the outer contour of the individual flat form can also lie in the front part of the outer contour, particularly in the case where the individual flat forms after the dispensing device are guided into a device which transports them onward at a higher speed than the speed at which the individual flat forms are fed to the dispensing device. Such a device can consist, for example, of two rollers pressing against each other. The higher speed of the onward transport compared
Schumann Klaus
Steinborn Peter
Frommer & Lawrence & Haug LLP
LTS Lohmann Therapie-Systeme AG
Noland Kenneth W.
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