An automated multi-purpose quilling device includes a housing and a driver element. The housing accommodates an electrical unit. The housing defines a through-hole and is configured to receive at least one tool attachment to perform one or more functions of quilling. The driver element is attached to the electrical unit of the housing. A first end of the driver element is placed onto the electrical unit within the housing and a second end of the driver element protrudes externally from the through-hole. The second end of the driver element is configured to receive the at least one tool attachment. The driver element is further configured to rotate when actuated by the electrical unit and in turn operate the at least one tool attachment.

A cosmetic stamp includes one or more stamping elements, a stamp compartment or housing for carrying the one or more stamping elements and a stamping substance. For example, a cosmetic stamp is an eyebrow stamp that is used for the application of a cosmetic eyebrow using the one or more stamping elements and the stamping substance. A method of applying a cosmetic stamp includes removing a stamping element from a stamp compartment, opening a lid of the stamp compartment, and pressing the face of the stamp to a stamping substance.

A cosmetic stamp includes one or more stamping elements, a stamp compartment or housing for carrying the one or more stamping elements and a stamping substance. For example, a cosmetic stamp is an eyebrow stamp that is used for the application of a cosmetic eyebrow using the one or more stamping elements and the stamping substance. A method of applying a cosmetic stamp includes removing a stamping element from a stamp compartment, opening a lid of the stamp compartment, and pressing the face of the stamp to a stamping substance.

A cosmetic stamp includes one or more stamping elements, a stamp compartment or housing for carrying the one or more stamping elements and a stamping substance. For example, a cosmetic stamp is an eyebrow stamp that is used for the application of a cosmetic eyebrow using the one or more stamping elements and the stamping substance. A method of applying a cosmetic stamp includes removing a stamping element from a stamp compartment, opening a lid of the stamp compartment, and pressing the face of the stamp to a stamping substance.

A reverse type stamp includes an outer cylindrical body, an inner cylindrical body which is movable relative to the outer cylindrical body, an elastic member that constantly urges the inner cylindrical body in a protruding direction inside the outer cylindrical body, an inversion body which is reversed and returned in synchronization with the relative movement, and a print body which is joined to the inversion body. When the outer cylindrical body is pressed down while the inner cylindrical body stands on a paper surface, the inversion body is reversed inside the inner cylindrical body for an imprinting operation. An ink pad is provided inside a movable container inside a cartridge. The movable container is elastically supported inside the cartridge by a coil spring provided at a rear surface thereof. Since contact between the ink pad and the print body is buffered, the sagging of the ink pad can be prevented.

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.

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.