This invention relates to magnetic print rolls and print cylinder assemblies which include multiplicities of embedded magnets within their outer circumferential surfaces. More particularly, this invention relates to such rolls and cylinders which are adapted for attachment to and detachment from print roll receiving and driving axles.
Magnetic print rolls or cylinders commonly include configurations of the walls of their interior axle receiving bores which facilitate attachments to and detachments from print roll receiving and driving axles. Such interior bore wall structures commonly inefficiently and in a mechanically cumbersome manner facilitate attachments of the cylinder to driving axles and detachments therefrom.
The instant inventive printing assembly solves or ameliorates such problems and deficiencies by specially configuring the cylinder's axle receiving bore wall for ease in installation upon and deinstallation from a cylinder driving axle and for ease and efficiency in rigidly locking the cylinder thereon, and for unlocking the cylinder therefrom.
A first structural component of the instant inventive printing assembly comprises a clamping annulus which has a tiered circumferential end or tiered outer circumferential aspect. Such clamping annulus necessarily has axially and oppositely axial ends, each such end having an outside diameter. In a preferred embodiment, the outside diameter of the clamping annulus's axial end is greater than or exceeds the outside diameter of the clamping annulus's oppositely axial end. Such diameter differential advantageously results in stepping or tiering of the clamping annulus, and such dimensional difference advantageously forms and defines a guide sleeve receiving space within and as a part of the axial end of the clamping annulus.
A further structural component of the instant inventive printing assembly comprises a cylinder or roll which, like the assembly's clamping annulus, has axial and oppositely axial ends. The assembly's cylinder component preferably has a cylindrically configured circumferential outer surface, and the cylinder preferably has a bore which is defined by a tiered inner wall. Like the assembly's clamping annulus component, the cylinder's tiered inner wall preferably has axially and oppositely axial ends. In the preferred embodiment, the axial end of the cylinder's tiered inner wall circumferentially and radially outwardly overlies the clamping annuluses axial end, and such wall's oppositely axial end correspondingly circumferentially and radially outwardly overlies the clamping annuluses oppositely axial end.
A further structural component of the instant inventive print assembly comprises a plurality of magnet receiving recesses, each recess among the plurality of magnet receiving recesses preferably extending radially inwardly into the cylinder from the cylinder's outer circumferential surface. In a preferred embodiment, pluralities of permanent magnets and magnetic strengthen enhancing pole pieces are fixedly embedded within the magnet receiving recesses for secure attachment and holding of flexible ferro-magnetic print dies.
In use of the instant inventive print assembly, the guide sleeve receiving space which is formed and defined within the clamping annulus and which is radially outwardly bounded by the axial end of the cylinder's tiered inner wall allows for convenient and mechanically efficient operation therein of an annular wedge clamp. Within such guide sleeve receiving space, clamp jaws and sleeve configured wedges may be forcefully moved along and driven between the cylinder's bore wall and a drive axle which extends axially through the cylinder bore. Such wedge driving clamping action is advantageously facilitated by the instant invention's specially configured and tiered clamping annulus.
In a preferred embodiment of the instant inventive assembly, the clamping annulus is further specially configured to present an annular land or radial transition which effectively divides the clamping annulus's axial and oppositely axial ends. Closely fitted axial and oppositely axial compression sleeves are preferably fixedly mounted to the cylinder at axial and oppositely axial ends of the cylinder bore's tiered inner wall. Preferably, such compression sleeves are mounted thereon at axial and oppositely axial sides of a cross-sectional plane which substantially bisects the cylinder's axial dimension.
Accordingly, objects of the instant invention include the provision of a printing assembly which incorporates components, as described above, and which arranges such components in relationship to each other in manners described above for the performance of and achievement of beneficial objects, as described above.
Other and further objects, benefits, and advantages of the present invention will become known to those skilled in the art upon review of the Detailed Description which follows, and upon review of the appended drawings.
Referring now to the drawings, and in particular to Drawing
Multiplicities of magnets 12, and mild paramagnetic steel pole pieces 14 are preferably fixedly embedded via adhesive bonding within the recesses 2,4, so that the radially outer surfaces of the magnets 12 and pole pieces 14 form with the radially outer surfaces of the ridges 10 a substantially continuous outer circumferential surface for, referring further simultaneously to
In a preferred embodiment, the poles of the magnets 12 are axially aligned and the magnets 12 are arranged in relation to each other in an “ . . . NN, SS, NN, SS, NN, SS . . . ” series order. Each magnet 12 of the series preferably abuts a pole piece 14 at each of its poles. Such orientation and arrangement of the magnets 12 in relation to the pole pieces 14 advantageously maximizes attractive magnetic die plate holding strength at the cylinder's outer circumferential surface.
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In order to effectively support and guide the oppositely axial driving action of the axial jaw 42, a ring configured guide sleeve 44 is preferably fixedly attached to or formed wholly with the axial jaw 42, such guide sleeve 44 preferably being closely fitted for sliding receipt over the axle 74 and within the annulus formed by sleeve step 59 and wedge sections 70. The oppositely axial end 46 of the guide sleeve 44 preferably terminates short of any interference with or impingement against sleeve step 59.
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Such assembly preferably comprises a bolt 100 having helical threads at its axial end. The bolt 100 is preferably rotatably supported at the oppositely axial end of the axle 74 by means of a bearing ring 90 whose axial end is fitted for receiving and bridging over axle end components, and fitted for abutting engagement of ring face 94 against the oppositely axial face of clamp jaw ring 56. A rotation stopping pin 82 is preferably provided for allowing axial installations and deinstallations of bearing ring 90 over the oppositely axial end of axle 74 while resisting rotation of that ring with respect to the axle 74.
The axial end 96 of the bore 92 which rotatably receives bolt 100 is preferably enlarged for receipt of a coaxially mounted biasing spring 98 which, in operative engagement with clip 104, axially biases the bolt 100 for easing threaded engagements as discussed below.
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Such radially outward deflections of wedge sections 70 and 64 advantageously securely hold and position the cylinder 1 at a specifically desired location and orientation with respect to axle 74, such positioning provides for secure and accurate alignment of a magnetically attached ferro-magnetic printing plate 15.
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While the principles of the invention have been made clear in the above illustrative embodiment, those skilled in the art may make modifications in the structure, arrangement, portions and components of the invention without departing from those principles. Accordingly, it is intended that the description and drawings be interpreted as illustrative and not in the limiting sense, and that the invention be given a scope commensurate with the appended claims.
This patent application constitutes a divisional application claiming priority from and the benefit of the filing date of U.S. patent application Ser. No. 13/945,726, entitled “Printing Assembly”, and filed Jul. 18, 2013. The inventor and applicant of said prior application and the inventor and applicant herein are the same. The Specification and drawings of said prior application are substantially identical to that which follows and are submitted herewith. The instant divisional application is filed during the pendency of said prior application.
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Entry |
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U.S. Appl. No. 13/604,292, Pantchev. |
Number | Date | Country | |
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20160001547 A1 | Jan 2016 | US |
Number | Date | Country | |
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Parent | 13945726 | Jul 2013 | US |
Child | 14857093 | US |