Abstract: A multi-ply mount (frame member) for displaying an image in a lenticular environment includes a lenticular sheet having lenticules. The lenticular sheet has a clear coating deposited on a portion of the front surface thereof. The clear coating at least substantially fills the valleys of the lenticules within the portion to form a filled region that defines a windowed region. A reverse-mounted image, such as a photograph, is disposed along and faces the back surface and is in registration with the windowed region resulting in the reverse-mounted image being viewable through the clear coating without lenticular distortion. A multi-layer backing structure seals the reverse-mounted image within the mount.
Abstract: An automated lenticular photographic system includes an interface that permits a user to upload image files and image processing and printing equipment that is in communication with the interface for receiving the uploaded image files and processing the uploaded image files to create an interlaced print image file that is used to produce an interlaced print sheet containing interlaced print images. A pair of registration marks is formed on the interlaced print sheet outside of borders of the interlaced print images to assist in aligning the interlaced print sheet with a lenticular lens sheet. A registration system detects whether the lenticular lens sheet is off-centered and skewed relative to the interlaced print sheet.
Type:
Application
Filed:
November 11, 2011
Publication date:
May 24, 2012
Applicant:
Tracer Imaging LLC
Inventors:
Stephen S. Daniell, Steven M. Spiro, David Whelan, James Anderson, Daniel L. Lau
Abstract: An automated lenticular photographic system includes an interface that permits a user to upload image files and image processing and printing equipment that is in communication with the interface for receiving the uploaded image files and processing the uploaded image files to create an interlaced print image file that is used to produce an interlaced print sheet containing interlaced print images. A pair of registration marks is formed on the interlaced print sheet outside of borders of the interlaced print images. The system also includes a processing station where the interlaced print sheet is aligned with a lenticular lens sheet with a registration system that detects whether the lenticular lens sheet is off-centered and skewed relative to the interlaced print sheet. The system also includes means for controllably adjusting the position of the lenticular lens sheet relative to the interlaced print sheet until proper registration between the lenticular lens sheet and the interlaced print sheet is achieved.
Type:
Application
Filed:
July 13, 2011
Publication date:
March 22, 2012
Applicant:
Tracer Imaging LLC
Inventors:
Stephen S. Daniell, Steven M. Spiro, David Whelan, James Anderson, Daniel L. Lau
Abstract: In one embodiment of the present invention, a process for making a lenticular card includes the steps of: (a) providing a transparent sheet having a first planar side and a second side having a lenticulated region; and (b) forming a printed image on the first planar side. The printed image is formed from a plurality of inks including a first set of ink layers and a second ink layer that is disposed on the first set of ink layers and is located a greater distance from the first planar side. The first set of ink layers are formed from a first family of inks, while the second ink layer is formed from a second family of inks that has a different cure process compared to the first family of inks. The outer ink layer is a solvent-based continuous white topcoat, while the first set of ink layers that underlie the second ink layer is defined by a plurality of UV curable inks.
Abstract: A lenticular label for removable attachment to a surface of an object includes a transparent sheet having a first planar side and a second side having a lenticulated region. The label having a printed image on the first planar side and a low-tack adhesive disposed along the printed image. The low-tack adhesive is configured to provide tangential adhesion between the label and the surface to which the label is removably attached.
Abstract: In one embodiment, a multi-ply mount (frame member) for displaying an image in a lenticular environment includes a lenticular sheet having lenticules that define vertices and valleys therebetween, wherein at least one select portion of a back surface thereof has graphic material including an image. The lenticular sheet has a clear coating deposited on a portion of the front surface thereof. The clear coating at least substantially fills the valleys of the lenticules within the portion to form a filled region that defines a windowed region. A reverse-mounted image, such as a photograph, is disposed along and faces the back surface and is in registration with the windowed region resulting in the reverse-mounted image being viewable through the clear coating without lenticular distortion while the surrounding graphic material of the back surface that is viewable through the lenticules that are free of the clear coating exhibits a lenticular effect.
Abstract: In one embodiment of the present invention, a process for making a lenticular card includes the steps of: (a) providing a transparent sheet having a first planar side and a second side having a lenticulated region; and (b) forming a printed image on the first planar side. The printed image is formed from a plurality of inks including a first set of ink layers and a second ink layer that is disposed on the first set of ink layers and is located a greater distance from the first planar side. The first set of ink layers are formed from a first family of inks, while the second ink layer is formed from a second family of inks that has a different cure process compared to the first family of inks. The outer ink layer is a solvent-based continuous white topcoat, while the first set of ink layers that underlie the second ink layer is defined by a plurality of UV curable inks.