Even extra preferably, the primary tobacco material is shredded into strips from a sheet material having a thickness of no less than about 0.2 mm. In addition, or in its place, the first tobacco materials is preferably shredded into strips from a sheet material having a thickness of less than about 1 mm. More ideally, the primary tobacco materials is shredded into strips from a sheet material having a thickness of lower than about zero.ninety five mm. Even more ideally, the first tobacco material is shredded into strips from a sheet materials having a thickness of less than about 0.85 mm.
Sensors forty and mass move controllers forty two, 44, if current, are operatively linked with a management unit forty six configured to regulate the operation of the apparatus. In specific, the control unit forty six adjusts the pace to the conveyor belt 38 in view of variations in the pace at which the net of reconstituted tobacco is fed to the shredding gadget 36, in order to stop any undesirable accumulation of reduce strips on the conveyor belt. By finely controlling the scale and shape of the strips into which the first tobacco materials is cut or shredded, the features of the first tobacco material can advantageously be better preserved each time the first tobacco materials is blended, in the shredded state, with some other tobacco material. This is particularly advantageous when the primary tobacco materials is a pre-processed tobacco material, such as a reconstituted tobacco sheet material. The “thickness” of a minimize strip of tobacco materials for incorporation in minimize fillers in accordance with the current invention refers to the distance between an higher surface and a decrease floor of the portion of material forming the minimize strip.
Further, the second Y-shaped construction includes a second branching node from which a rectangular construction branches off. In the embodiment of Figure 1 1 , the reduce strip contains a primary Y-shaped construction together tobacco pipe with a primary branching node from which a second Y-shaped structure branches off. Further, the second Y-shaped structure comprises a second branching node from which a third Y-shaped construction branches off.
The time period “minimize specification” is used throughout the specification to discuss with the assorted geometric parameters characterising the strips obtained by subjecting a tobacco material to a chopping operation. Thus, in accordance to a given “reduce specification”, a tobacco materials shall be cut or shredded into strips having a predetermined reduce width, reduce size, reduce shape and so forth. Further, it would be desirable to offer one such improved process that permits for a greater management of the form, measurement and properties of the reconstituted tobacco matter forming part of the reduce filler. At the same time, it might be desirable to supply one such course of that does not require any main modification of the standard apparatus and amenities used within the primary remedy of tobacco.
In most popular embodiments, the primary tobacco materials is shredded into strips from a sheet materials having a thickness from about 0.05 mm to about 1 mm. Even more preferably, the primary tobacco materials is shredded into strips from a sheet materials having a thickness from about zero.1 mm to about 0.three mm, most ideally from a sheet materials having a thickness of about 0.2 mm. A tobacco cut filler according to any considered one of claims 1 to 9, whereby the primary Filling cut tobacco tobacco materials is shredded into strips every comprising at least a primary strip construction comprising a branching node from which a further strip construction branches off, forming an angle with the primary strip structure. Figures 10 and 12 present two examples of cut strips including a number of V-shaped structure. Each V construction contains two substantially straight components forming an angle.
A tobacco cut filler based on declare 1 or 2, whereby the primary tobacco materials is a pre- processed tobacco materials. In a 3rd experiment, the minimize specification no. 10 was barely modified with a view to bettering the resistance of the particles to the stresses involved by the cigarette-making process. In particular, there was concern that during the cigarette-making course of the tobacco particle can be exposed to high tensions and frictions which Fashion tobacco pipe could trigger particles prepared in accordance with the cut specification no. 10 to break. This might have decreased the profit coming from the V-shape and proven by the CCV measurements described above. Figure thirteen depicts a schematic view of an equipment for forming a tobacco reduce filler in accordance with the present invention. Figures depict a number of examples of significantly shapes into which tobacco materials for forming a cut filler in accordance with the current invention could additionally be reduce.