Motor-operated conveyor roller with integrated controller

The invention claimed is: 1. A motorized conveyor roller, comprising: a roller body mounted so as to be able to rotate about a roller axle, a drive unit arranged inside the roller body and designed to generate a rotational movement about the roller axle between an axle element and the roller body, characterized by a control unit that is arranged inside the roller body and that is designed to receive a state signal from outside the roller body, to generate a control signal that describes a drive characteristic on the basis of the state signal, to control the drive unit by way of the control signal, to generate a self state signal that describes the state signal and/or the drive characteristic, and to transmit this self state signal outside the roller body, and characterized in that the control unit is designed to receive a sensor signal from a sensor arranged outside the roller body and/or a self state signal from another motorized conveyor roller as state signal and the control unit is designed to generate the control signal on the basis of this sensor signal and/or this self state signal, wherein the control unit is designed to receive a digital signal as state signal and to send a digital signal as self state signal, wherein the state signal has a first data structure designed for bus-based communication, having a first address data part and a first content data part and the self state signal has a second data structure designed for bus-based communication, having a second address data part and a second content data part. 2. The conveyor roller as claimed in claim 1 , characterized in that the axle element is designed as a hollow axle and is designed to be fastened in a conveyor roller frame in a manner fixed in terms of torque, and in that a signal line is routed through the hollow axle and is connected to the control unit so as to transmit the control signal. 3. The conveyor roller as claimed in claim 1 , characterized in that a rotary bearing of the axle element with respect to the roller body is arranged between the control unit and an external connection of a signal line that is connected to the control unit so as to transmit the control signal. 4. The conveyor roller as claimed in claim 1 , characterized in that the control unit has at least one operating mode in which it is designed to receive a digital state signal. 5. The conveyor roller as claimed in claim 1 , characterized in that the drive characteristic is selected from: an on/off state of the drive unit, a drive torque, a drive torque profile of the drive unit, a speed of the drive unit or of the roller body, a speed profile of the drive unit or of the roller body, a braking torque of the drive unit, or a braking torque profile of the drive unit, or a combination of two or more of these drive characteristics. 6. A motorized conveyor roller, comprising: a roller body mounted so as to be able to rotate about a roller axle, a drive unit arranged inside the roller body and designed to generate a rotational movement about the roller axle between an axle element and the roller body, characterized by a control unit that is arranged inside the roller body and that is designed to receive a state signal from outside the roller body, to generate a control signal that describes a drive characteristic on the basis of the state signal, to control the drive unit by way of the control signal, to generate a self state signal that describes the state signal and/or the drive characteristic, and to transmit this self state signal outside the roller body, and characterized in that the control unit is designed to receive a sensor signal from a sensor arranged outside the roller body and/or a self state signal from another motorized conveyor roller as state signal and the control unit is designed to generate the control signal on the basis of this sensor signal and/or this self state signal wherein the control unit has a storage device in which a drive characteristic profile or a plurality of drive characteristic profiles are stored, wherein each drive characteristic profile is assigned an individual binary coding, and in that the storage device is designed to compare a received digital signal with the individual binary coding and to control the drive unit with a drive characteristic profile having an assigned individual coding that corresponds to the received digital signal. 7. The conveyor roller as claimed in claim 1 , characterized in that the drive unit comprises a brushless electric motor and the control unit comprises commutation electronics for controlling the electric motor. 8. The conveyor roller as claimed in claim 1 , characterized in that the control unit comprises an electronic memory and is designed to receive programming data, to store the programming data in the electronic memory, and to generate the control signal on the basis of the programming data. 9. A motorized conveyor roller comprising a roller body mounted so as to be able to rotate about a roller axle, a drive unit arranged inside the roller body and designed to generate a rotational movement about the roller axle between an axle element and the roller body, characterized by a control unit that is arranged inside the roller body and that is designed to receive a state signal from outside the roller body, to generate a control signal that describes a drive characteristic on the basis of the state signal, to control the drive unit by way of the control signal, to generate a self state signal that describes the state signal and/or the drive characteristic, and to transmit this self state signal outside the roller body, characterized in that the control unit comprises an electronic memory and is designed to receive programming data, to store the programming data in the electronic memory, and to generate the control signal on the basis of the programming data, and characterized in that the control unit is designed, on the basis of the programming data, to change over between a first control signal for a first control sequence that corresponds to a single discharge mode, in which a control signal that represents a drive characteristic activating the drive unit is generated on the basis of a state signal that signals a free destination space, and a second control signal for a second control sequence that corresponds to a block discharge mode, in which a control signal that represents a drive characteristic activating the drive unit is generated on the basis of a state signal that signals the activation of a drive unit of an adjacent motorized conveyor roller. 10. The conveyor roller as claimed in claim 8 , characterized in that the control unit comprises the electronic memory and is designed to receive a programming signal and, on the basis of and depending on the programming instruction, to store a logic dependency, described by an algorithm, between a state signal and a drive characteristic, a logic dependency, described by an algorithm, between a state signal and a drive characteristic profile, or a drive characteristic profile in the electronic memory. 11. The conveyor roller as claimed in claim 1 , characterized in that the control unit is designed, in an analog operating mode, to receive an analog control signal and to control the drive unit on the basis of the analog control signal, to change to a digital operating mode upon receiving a predetermined analog control signal, to receive digital control data in the digital operating mode and to process them as a control signal or programming s