Permanent magnet assemblies for generating concave field lines and process for creating optical effect coating therewith (inverse rolling bar)

1 . A magnetic-field-generating device for producing an optical effect layer (DEI:) made of a hardened coating, said magnetic-field-generating device being configured for receiving a supporting surface carrying a coating composition comprising a plurality of non-spherical magnetic or magnetizable pigment particles and a binder material, and being configured for orienting at least a part of the plurality of non-spherical magnetic or magnetizable pigment particles in an orientation forming a positive rolling bar effect, wherein the magnetic-field generating device is located on the side of the supporting surface opposite to the side carrying the coating composition. 2 . The magnetic-field-generating device according to claim 1 , wherein the supporting surface is a substrate on which the coating composition (C) is applied, or a combination of a non-magnetic plate and a substrate. 3 . The magnetic-field-generating device according to claim 1 or 2 , wherein said magnetic-field-generating device is a) a bar dipole magnet (M 1 ) and a pair of bar dipole magnets (M 2 ) and (M 3 ), said bar dipole magnets (M 1 ), (M 2 ) and (M 3 ) having their North-South axis substantially parallel to the supporting surface and the same magnetic North-South direction, a1)said bar dipole magnet (M 1 ) is disposed below the supporting surface and said pair of bar dipole magnets (M 2 ) and (M 3 ) are disposed below the bar dipole magnet (M 1 ) apart form each other; or a2) said pair of bar dipole magnets (M 2 ) and (M 3 ) are disposed below the supporting surface and apart from each other, and said bar dipole magnet (M 1 ) is disposed below said pair of bar dipole magnets (M 2 ) and (M 3 ); or b) a pair of bar dipole magnets (M 4 ) and (M 5 ) and a pole piece (Y), said pair of bar dipole magnets (M 4 ) and (M 5 ) having their North-South axis substantially parallel to the supporting surface and the same magnetic North-South direction, said pole piece (Y) being disposed between said bar dipole magnet (M 4 ) and said bar dipole magnet (M 5 ); or c) a pair of bar dipole magnets (M 4 ) and (M 5 ), a pole piece (Y) and a magnetic plate (M 6 ), said pair of bar dipole magnets (M 4 ) and (M 5 ) having their North-South axis substantially parallel to the supporting surface and the same magnetic North-South direction, said magnetic plate (M 6 ) having its North-South axis substantially perpendicular to the supporting surface, said pole piece (Y) being disposed between said bar dipole magnet (M 4 ) and said bar dipole magnet (M 5 ). 4 . The magnetic-field-generating device according to claim 3 , wherein the magnetic plate (M 6 ) surface facing the supporting surface comprises engravings. 5 . The magnetic-field-generating device according to claim 1 , wherein said magnetic field generating device comprises a pair of spaced apart bar dipole magnets and a third element, preferably a third dipole magnet or a pole piece, wherein the dipole magnets have north to south axes that are aligned with each other, that are substantially parallel to the supporting surface and that have a same magnetic North-South direction, wherein the dipole magnets are spaced apart along the north south axes so as to provide a gap region between the dipole magnets in which magnetic field lines are such that the magnetic or magnetizable pigment particles are oriented in the gap region to form the positive rolling bar effect and wherein the third element is arranged with the pair of spaced dipole bar magnets to disturb the magnetic field in the gap region between the spaced apart bar dipole magnets. 6 . The magnetic field generating device according to claim 4 , wherein the third element is the third dipole magnet, and the third dipole magnet has a north south axis aligned with the north south axes of the pair of spaced apart bar dipole magnets and has a same magnetic North-South direction; and the pair of spaced apart bar dipole magnets each have a pole facing the gap region, wherein the facing poles are spaced apart to form the gap region and are positioned adjacent to the opposed polar sides of the third dipole magnet. 7 . The magnetic field generating device according to any one of claims 3 to 6 , wherein the pair of bar dipole magnets are disposed at a periphery or outside of a periphery of the coating composition and are configured to produce magnetic field lines in a gap region between the bar dipole magnets to create the positive rolling bar effect in the coating composition in the gap region. 8 . The magnetic field generating device according to any one of claims 3 to 7 , wherein at least one of the pair of bar dipole magnets has a length along the north to south axis that is smaller than a space between the pair of bar dipole magnets along the north to south axis. 9 . A printing assembly comprising one or more magnetic-field-generating devices recited in any one of claims 1 to 8 . 10 . Use of the magnetic-field-generating devices recited in any of the claims 1 to 9 for producing an optical effect layer (OEL) recited in claim 1 . 11 . A process for producing an optical effect layer (OEL) comprising the steps of: a) applying on a supporting surface a coating composition comprising a binder and a plurality of non-spherical magnetic or magnetizable pigment particles, said coating composition being in a first state, b) exposing the coating composition in a first state to the magnetic field of a magnetic-field-generating device receiving the supporting surface, preferably one as defined in any of claims 1 to 9 , thereby orienting at least a part of the non-spherical magnetic or magnetizable pigment particles so as to form a positive rolling bar effect, and c) hardening the coating composition to a second state so as to fix the non-spherical magnetic or magnetizable pigment particles in their adopted positions and orientations. 12 . The process of claim 11 , comprising applying the optical effect layer to a security document. 13 . The process of claim 12 , wherein the security document is selected from the group consisting of banknotes, identity documents, right-conferring documents, driving licenses, credit cards, access cards, transportation titles, bank checks and secured product labels. 14 . An optical effect layer (DEL) comprising a positive rolling bar effect produced by the process recited in claim 11 or 12 . 15 . A security document comprising the optical effect layer of claim 14 . 16 . The security document of claim 15 , wherein the security document is selected from the group consisting of banknotes, identity documents, right-conferring documents, driving licenses, credit cards, access cards, transportation titles, bank checks and secured product labels.