Turning device for a self-inking stamp includes a housing and an actuating bracket. The housing has, on each of two opposite side walls, one control cam curved at least in sections for a turning shaft. The bracket is connected and displaceable relative to the housing. On each of two limbs arranged parallel to the housing side walls, the bracket has one turning shaft guide arranged transversely to a displacement direction of the bracket relative to the housing. The guide and the control cam overlap partially at least on a first side and in at least one position of the bracket relative to the housing and configure an opening which is continuous from an outer side, so that a turning shaft is introduceable in the longitudinal direction from the outside into the turning device. The guides have in each case one displaceably mounted sliding bush with a turning shaft bearing.

Turning device for a self-inking stamp includes a housing and an actuating bracket. The housing has, on each of two opposite side walls, one control cam curved at least in sections for a turning shaft. The bracket is connected and displaceable relative to the housing. On each of two limbs arranged parallel to the housing side walls, the bracket has one turning shaft guide arranged transversely to a displacement direction of the bracket relative to the housing. The guide and the control cam overlap partially at least on a first side and in at least one position of the bracket relative to the housing and configure an opening which is continuous from an outer side, so that a turning shaft is introduceable in the longitudinal direction from the outside into the turning device. The guides have in each case one displaceably mounted sliding bush with a turning shaft bearing.

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.

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.

Turning device for a self-inking stamp includes a housing and an actuating bracket. The housing has, on each of two opposite side walls, one control cam curved at least in sections for a turning shaft. The bracket is connected and displaceable relative to the housing. On each of two limbs arranged parallel to the housing side walls, the bracket has one turning shaft guide arranged transversely to a displacement direction of the bracket relative to the housing. The guide and the control cam overlap partially at least on a first side and in at least one position of the bracket relative to the housing and configure an opening which is continuous from an outer side, so that a turning shaft is introduceable in the longitudinal direction from the outside into the turning device. The guides have in each case one displaceably mounted sliding bush with a turning shaft bearing.

Turning device for a self-inking stamp includes a housing and an actuating bracket. The housing has, on each of two opposite side walls, one control cam curved at least in sections for a turning shaft. The bracket is connected and displaceable relative to the housing. On each of two limbs arranged parallel to the housing side walls, the bracket has one turning shaft guide arranged transversely to a displacement direction of the bracket relative to the housing. The guide and the control cam overlap partially at least on a first side and in at least one position of the bracket relative to the housing and configure an opening which is continuous from an outer side, so that a turning shaft is introduceable in the longitudinal direction from the outside into the turning device. The guides have in each case one displaceably mounted sliding bush with a turning shaft bearing.

A method for transposing multi-event sports meet information on skin comprises the steps of using a rotating type stamping device mechanism where multiple selections can be made to refine event specifics. These specifics which may include event number, heat number, lane number, stroke, and distance information are then stamped onto an athlete's skin with the device. Multiple lines can be stamped covering an array of events. Stamping creates a clear image and requires no writing by hand on the skin to populate the event information.

A method for transposing multi-event sports meet information on skin comprises the steps of using a rotating type stamping device mechanism where multiple selections can be made to refine event specifics. These specifics which may include event number, heat number, lane number, stroke, and distance information are then stamped onto an athlete's skin with the device. Multiple lines can be stamped covering an array of events. Stamping creates a clear image and requires no writing by hand on the skin to populate the event information.