Beverage bottling plant with heated information-adding equipment and information-adding equipment

What is claimed is: 1. A gluing arrangement for applying glue to labels in a labeling machine, said gluing arrangement comprising: a glue supply containing glue; a roller element being cylindrically-shaped and disposed to receive glue from said glue supply, and to provide said glue to be transferred to labels; a machine frame; said roller element being rotatably mounted on said machine frame to rotate about a rotational axis oriented vertically; an induction heating arrangement being disposed within said roller element to heat said roller element; a temperature sensor arrangement being disposed and configured to sense the temperature of at least a portion of said roller element; said temperature sensor arrangement being protectively sealed against contamination and mechanical damage; said machine frame comprising a stationary support; said induction heating arrangement being suspended from above on said stationary support; said roller element comprising an annular body disposed around said induction heating arrangement, and a drive shaft disposed beneath said induction heating arrangement; said drive shaft being connected to a bottom portion of said annular body; and said machine frame comprising a drive unit connected to said drive shaft to rotate said drive shaft and thus said annular body about said induction heating arrangement and said vertical rotational axis. 2. The gluing arrangement according to claim 1 , wherein: said annular body comprises a circular cylindrical outer surface and an inner portion disposed within said outer surface; said inner portion of said annular body comprises an inner surface; and said temperature sensor arrangement comprises temperature sensors disposed at intervals inside said annular body between said inner and outer surfaces, and configured to sense the temperature of at least a portion of said outer surface. 3. The gluing arrangement according to claim 2 , wherein: said induction heating arrangement comprises a first induction heater and a second induction heater disposed within and surrounded by said inner portion of said annular body; said temperature sensors comprise a first temperature sensor and a second temperature sensor; said first temperature sensor is disposed essentially at the center of said first induction heater; and said second temperature sensor is disposed essentially at the center of said second induction heater. 4. The gluing arrangement according to claim 3 , wherein: said induction heating arrangement comprises a core that comprises a material with high magnetic conductivity; said core comprises a diameter slightly less than an inner diameter of said annular body, such that there is a narrow gap between an outer surface of said core and said inner surface of said annular body. 5. The gluing arrangement according to claim 4 , wherein each of said induction heaters comprises a plurality of layers of induction coils, of which the innermost layer is coiled around said core and each subsequent layer, in the radial direction from the vertical rotational axis, is coiled around a preceding layer. 6. The gluing arrangement according to claim 5 , wherein said core is configured to minimize the formation of eddy currents in said core by at least one of: material selection, structural configuration, and structuring, and at least a portion of said roller element which is to be heated comprises a material or a material combination with a high electrical and/or high magnetic conductivity. 7. The gluing arrangement according to claim 6 , wherein: said roller element comprises measurement and control electronics; said roller element comprises a contact-free rotary transmitter; and said temperature sensors are connected to said measurement and control electronics by said rotary transmitter. 8. The gluing arrangement according to claim 7 , wherein said temperature sensors are disposed inside an elongated vertical bore in said annular body. 9. The gluing arrangement according to claim 2 , wherein: said induction heating arrangement comprises a first induction heater and a second induction heater disposed within and surrounded by said inner portion of said annular body; said temperature sensors comprise solely three temperature sensors: a first temperature sensor, a second temperature sensor, and a third temperature sensor; said first temperature sensor is disposed essentially at the center of said first induction heater; said second temperature sensor is disposed essentially at the center of said second induction heater; and said third temperature sensor is disposed essentially at the center of said third induction heater. 10. The gluing arrangement according to claim 2 , wherein: said induction heating arrangement comprises a core that comprises a material with high magnetic conductivity; said core comprises a diameter slightly less than an inner diameter of said annular body, such that there is a narrow gap between an outer surface of said core and said inner surface of said annular body. 11. The gluing arrangement according to claim 10 , wherein each of said induction heaters comprises a plurality of layers of induction coils, of which the innermost layer is coiled around said core and each subsequent layer, in the radial direction from the vertical rotational axis, is coiled around a preceding layer. 12. The gluing arrangement according to claim 2 , wherein said temperature sensors are disposed inside an elongated vertical bore in said annular body. 13. The gluing arrangement according to claim 1 , wherein: said induction heating arrangement comprises a core that comprises a material with high magnetic conductivity; said core is configured to minimize the formation of eddy currents in said core by at least one of: material selection, structural configuration, and structuring, and at least a portion of said roller element which is to be heated comprises a material or a material combination with a high electrical and/or high magnetic conductivity; said roller element comprises measurement and control electronics; said roller element comprises a contact-free rotary transmitter; and said temperature sensor arrangement comprises at least two temperature sensors connected to said measurement and control electronics by said rotary transmitter.