Method and apparatus for applying annular doses

The invention claimed is: 1. An apparatus for forming an annular dose of plasticized material on a surface an container element, comprising: (a) a central core and an external annular wall spaced from and at least partially surrounding said central core to define at least one annular channel, said annular channel terminating with an annular outlet, said annular channel containing a supply of plasticized material; (b) a cutting element at least partially surrounding said annular wall, said cutting element being movable between pre-cutting position wherein said annular outlet is uncovered and a post-cutting position which covers said annular outlet, said cutting element separating an annular dose from the plasticised material as a result of movement of said cutting element relative to said annular outlet from said pre-cutting position toward said post-cutting position; (c) a support for the container element arranged beneath said core and said annular wall, said support being movable between a deposit position wherein a surface of the container element is positioned adjacent to said annular outlet and a rest position wherein said support spaces the surface of said container element from said annular outlet, said cutting element adhesively applying the annular dose to the container element surface when in said post-cutting position, the adhesive capacity of the container element surface relative to the annular dose being greater than the adhesive capacity of said cutting element; and (d) a drive mechanism connected with said cutting element and said support, whereby said drive mechanism coordinates movement of said cutting device and said support so that said annular dose is detached from said cutting element and adhesively applied the container element surface when said support is in said rest position and said cutting element is moved from said post-cutting position toward said pre-cutting position. 2. The apparatus as defined in claim 1 , wherein said cutting element includes at least one cutting edge of annular shape which separates the annular dose of plasticised material and an annular pushing portion which pushes the separated annular dose to the container element surface, said cutting edge and said annular portion being integrated in a single annular body. 3. The apparatus as defined in claim 1 , and further comprising at least one extruder main conduit including a supply of plasticized material connected with said annular channel, said annular channel extending along at least one longitudinal axis, said annular outlet being configured so that the plasticised material has, at each point of said annular outlet, an exit direction with at least one radial component that is normal to said longitudinal axis, said cutting element being movable in a direction parallel to said longitudinal axis, said cutting element being alternately moved between said pre-cutting and post-cutting positions to perform cutting cycles forming at least one annular dose during each cycle. 4. The apparatus as defined in claim 3 , wherein an end portion of said annular channel that is contiguous to said annular outlet is defined between an annular wall surface that is contiguous to a first edge of said annular outlet and a core surface that is contiguous with a second edge-of said annular outlet opposite said first edge, said annular wall and core surfaces being tilted with respect to said longitudinal axis, said tilted surfaces being curved surfaces with different curvatures from one another. 5. The apparatus as defined in claim 1 , and further comprising a compression forming assembly including an annular punch that shapes the annular dose and containing a cavity that is bounded internally by said annular punch and is of a sufficient width to enable the plasticized material of the annular dose to overflow laterally to said cavity.