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 .Math.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 .Math.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.

Elements for hand printing designs and patterns include cone pin blocks, flat pin blocks, and multisided sequence stamps. A cone pin block generally has a circular cross-section and is rolled in order to make symmetrical, circular or partial-circle designs. Flat pin blocks have a flat surface. The pin blocks have pins extending out of the cone surface or the flat surface. Flexible inking cord material is threaded between the pins in a chosen pattern. The inking material collects liquid ink by absorption or surface adhesion, which is transferred to a base by rolling or stamping. 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.

Elements for hand printing designs and patterns include cone pin blocks, flat pin blocks, and multisided sequence stamps. A cone pin block generally has a circular cross-section and is rolled in order to make symmetrical, circular or partial-circle designs. Flat pin blocks have a flat surface. The pin blocks have pins extending out of the cone surface or the flat surface. Flexible inking cord material is threaded between the pins in a chosen pattern. The inking material collects liquid ink by absorption or surface adhesion, which is transferred to a base by rolling or stamping. 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 method is provided for extending the frequency band of an audio signal during a decoding or improvement process. The method includes obtaining the decoded signal in a first frequency band, referred to as a low band. Tonal components and a surround signal are extracted from the signal from the low-band signal, and the tonal components and the surround signal are combined by adaptive mixing using energy-level control factors to obtain an audio signal, referred to as a combined signal. The low-band decoded signal before the extraction step or the combined signal after the combination step are extended over at least one second frequency band which is higher than the first frequency band. Also proved are a frequency-band extension device which implements the described method and a decoder including a device of this type.

A method is provided for extending the frequency band of an audio signal during a decoding or improvement process. The method includes obtaining the decoded signal in a first frequency band, referred to as a low band. Tonal components and a surround signal are extracted from the signal from the low-band signal, and the tonal components and the surround signal are combined by adaptive mixing using energy-level control factors to obtain an audio signal, referred to as a combined signal. The low-band decoded signal before the extraction step or the combined signal after the combination step are extended over at least one second frequency band which is higher than the first frequency band. Also proved are a frequency-band extension device which implements the described method and a decoder including a device of this type.

The invention relates to a stamp comprising a telescoping upper and lower part as well as a printing plate holder pivotally disposed in the lower part to accommodate the stamp plate. A retaining device for a stamp pad is associated with the printing plate holder, and in a rest position the printing plate holder is positioned in the range 80° to 135°, preferably at approximately 90° with respect to a contact area. From this rest position the stamp can be displaced into an operating position to produce a stamped imprint via guide means, whereby the printing plate holder is turned about two guide pins, wherein one guide pin is respectively disposed on a side face of the printing plate holder, and the guide pins simultaneously engage in guide slots in the upper and lower part.

The invention relates to a stamp comprising a telescoping upper and lower part as well as a printing plate holder pivotally disposed in the lower part to accommodate the stamp plate. A retaining device for a stamp pad is associated with the printing plate holder, and in a rest position the printing plate holder is positioned in the range 80° to 135°, preferably at approximately 90° with respect to a contact area. From this rest position the stamp can be displaced into an operating position to produce a stamped imprint via guide means, whereby the printing plate holder is turned about two guide pins, wherein one guide pin is respectively disposed on a side face of the printing plate holder, and the guide pins simultaneously engage in guide slots in the upper and lower part.

Cork stamping systems for applying a label, a design, text, or other information to the outside surface of a cork. The systems feature a plier-style device with a pair of jaws at its terminating end. At least a portion of the jaws features a stamp, and the jaws are constructed to accept at least a portion of a cork, wherein when the cork is clamped between the jaws, the stamp stamps on or etches in a design on the cork.

While the described ink pad can include any suitable component, in some cases it includes a lid, a base, and an absorbent material. Additionally, in some cases, the lid and the base define a cavity that houses the absorbent material and the lid and the base each comprise one or more magnets and/or magnetic materials that are configured to magnetically couple with each other to releasably couple the lid and base together. In some instances, the ink pad further includes one or more seals that are configured to extend between the base and lid to limit air movement into the cavity when the lid and base are coupled together in a closed position. Additional implementations are described herein.