The invention describes a system for preparing and producing a stamp plate, comprising at least one input device, a control device, and a processing device, with a processing insert and apertures arranged therein. The processing device, in particular a laser plotter, comprises a processing table, which is designed to accommodate and position the processing insert, in particular a tray or jig for at least one stamp plate blank, wherein a removal aid is allocated to at least one aperture of the processing insert, and/or this aperture preferably comprises means for guiding and positioning the insert. In particular the stamp plate blank and/or the workpiece. In order to attain an even surface of a base material of the stamp plate blank, for further processing the base material is positioned on a base plate in a removable manner.

The invention describes a system for preparing and producing a stamp plate, comprising at least one input device, a control device, and a processing device, with a processing insert and apertures arranged therein. The processing device, in particular a laser plotter, comprises a processing table, which is designed to accommodate and position the processing insert, in particular a tray or jig for at least one stamp plate blank, wherein a removal aid is allocated to at least one aperture of the processing insert, and/or this aperture preferably comprises means for guiding and positioning the insert. In particular the stamp plate blank and/or the workpiece. In order to attain an even surface of a base material of the stamp plate blank, for further processing the base material is positioned on a base plate in a removable manner.

In some embodiments, a stamp comprising at least one stamping component and one stamping insert with a mounted band unit. The stamping component may comprise a top part and a bottom part with a cushion-receiving element. The mounted band unit may be connected so as to move synchronously via a reversing mechanism in the bottom part to the top part. In the resting position a text plate mounted on the stamping insert and a stamping area of the mounted band unit may abut against an ink pad soaked with ink in the cushion-receiving element. During a stamping process for producing a stamp impression the stamping insert can be shifted via the reversing mechanism into a stamping position. On the stamping insert, a height adjustment element for the mounted band unit and/or a text plate carrier may be provided.

In some embodiments, a stamp comprising at least one stamping component and one stamping insert with a mounted band unit. The stamping component may comprise a top part and a bottom part with a cushion-receiving element. The mounted band unit may be connected so as to move synchronously via a reversing mechanism in the bottom part to the top part. In the resting position a text plate mounted on the stamping insert and a stamping area of the mounted band unit may abut against an ink pad soaked with ink in the cushion-receiving element. During a stamping process for producing a stamp impression the stamping insert can be shifted via the reversing mechanism into a stamping position. On the stamping insert, a height adjustment element for the mounted band unit and/or a text plate carrier may be provided.

A method includes providing an elastomeric stamp including a stamping surface with a first pattern element having a fill factor of 20 to 99 percent and including a continuous region and at least one discontinuous region, the discontinuous region including at least one of: (1) one or more elongated concavities, and (2) one or more interior voids. A second pattern element of the stamping surface has a fill factor of 0.25 to 10 percent, and includes traces with a width from 0.1 micrometers to 50 micrometers. The stamping surface is inked with an ink composition including a functionalizing molecule with a functional group selected to bind to a surface of the ink-receptive material. The inked stamping surface is contacted with an ink-receptive material selected from a sheet or a web for a contact time sufficient to bind the functional group with the surface of the ink-receptive material to form a self-assembled monolayer (SAM) of the functionalizing material.

A method includes providing an elastomeric stamp including a stamping surface with a first pattern element having a fill factor of 20 to 99 percent and including a continuous region and at least one discontinuous region, the discontinuous region including at least one of: (1) one or more elongated concavities, and (2) one or more interior voids. A second pattern element of the stamping surface has a fill factor of 0.25 to 10 percent, and includes traces with a width from 0.1 micrometers to 50 micrometers. The stamping surface is inked with an ink composition including a functionalizing molecule with a functional group selected to bind to a surface of the ink-receptive material. The inked stamping surface is contacted with an ink-receptive material selected from a sheet or a web for a contact time sufficient to bind the functional group with the surface of the ink-receptive material to form a self-assembled monolayer (SAM) of the functionalizing material.

Multisided sequence stamps include left and right handles and multisided blocks disposed between the two handles. The blocks have relief designs on their peripheral side surfaces, either formed directly on the surface of the blocks or formed on rings that slide over the blocks. The blocks (and pattern rings if used) are many sided (e.g. hexagonal) with different embossed designs on different sides. Each block and/or pattern ring is individually rotatable relative to the other blocks/rings and may be added, removed, or exchanged with other blocks.

Multisided sequence stamps include left and right handles and multisided blocks disposed between the two handles. The blocks have relief designs on their peripheral side surfaces, either formed directly on the surface of the blocks or formed on rings that slide over the blocks. The blocks (and pattern rings if used) are many sided (e.g. hexagonal) with different embossed designs on different sides. Each block and/or pattern ring is individually rotatable relative to the other blocks/rings and may be added, removed, or exchanged with other blocks.

A flexible stamp includes at least one strengthening layer and texturing layer with a relief area. At least part of the at least one strengthening layer is positioned below the at least one texturing layer and at least partially supports the relief area and texturing layer. The combination of this part of strengthening layer, texturing layer and relief area forms an active area. The flexible stamp includes a non-active area having at least one further part of the at least one strengthening layer which does not support the texturing layer and relief area or at least one further strengthening layer. Each strengthening layer has a thermal expansion coefficient of 10 ppm/ C. or lower, a Young's modulus of 10 GPa-200 GPa, and thickness below 300 m. The active area and the non-active area of the flexible stamp represent at least 90% of the total area of the flexible stamp.

A flexible stamp includes at least one strengthening layer and texturing layer with a relief area. At least part of the at least one strengthening layer is positioned below the at least one texturing layer and at least partially supports the relief area and texturing layer. The combination of this part of strengthening layer, texturing layer and relief area forms an active area. The flexible stamp includes a non-active area having at least one further part of the at least one strengthening layer which does not support the texturing layer and relief area or at least one further strengthening layer. Each strengthening layer has a thermal expansion coefficient of 10 ppm/ C. or lower, a Young's modulus of 10 GPa-200 GPa, and thickness below 300 m. The active area and the non-active area of the flexible stamp represent at least 90% of the total area of the flexible stamp.