A tamper drive includes a wobble shaft rotatable about a central axis. The wobble shaft includes an eccentric hub recess within a movable bearing coupled to a yoke. The movable bearing rotates when the wobble shaft rotates to induce reciprocal movement of the yoke. In another tamper drive, an eccentric portion of a wobble shaft is rotatable within a bearing coupled to or integrated with an offset lobe having a pin slidingly disposed therein. Still another tamper drive includes an arm having a shaft fixedly coupled to one end, and first and second cam followers disposed at the other end. A rotatable cam provides a cam surface for each of the first and second cam followers.

A method for controlling/regulating a rotatory drive of a working unit of a track maintenance machine includes using a sensor to record a measurement parameter with an approximately periodic history function derived from a rotation of the drive. A frequency or period duration of the history function is determined with an evaluation device, and the frequency or period duration is compared with a target parameter for stipulating a control signal. A number of time-discrete measurement values is formed for the measurement parameter and an auto-correlation of these measurement values is carried out by a calculation unit for determining the frequency or the period duration. As compared to a conventional method with zero stage recording, a precise recording of frequency changes is therefore also possible between two zero stages. A device for carrying out the method is also provided.

A method for compacting a ballast bed, on which railroad ties and track rails secured thereto are supported, uses a work assembly which is arranged on a track construction machine that can be moved on the track. During a compaction process, a signal is detected and a characteristic variable is derived therefrom by an analysis device in order to evaluate the quality of the ballast bed. The work assembly contains an electric drive, by which the compaction process is at least partly carried out. At least one operating variable of the electric drive is supplied to the analysis device, and a ballast bed characteristic variable is derived from the operating variable by the analysis device.

The invention concerns a track maintenance machine for tamping a track having sleepers supported in a ballast bed with rails fitted to the same, with a machine frame that is mobile on on-track undercarriages and with a tamping unit which comprises tamping tools to be lowered into the ballast bed and set to vibrate and to be squeezed towards one another, wherein a camera for transmitting real-time images to an output means is arranged upstream of the tamping unit in a working direction. A first camera system is arranged upstream of the tamping unit in working direction here for recording a first surface area of the track as a first image section. In addition, a second camera system is arranged downstream of the tamping unit in working direction for recording a second surface area of the track as a second image section, wherein the recorded image sections partly overlap and wherein the output means is equipped for issuing the image sections in a merged image.

The invention relates to a tamping tine for a tamping machine for tamping a track, including a tine shaft which has at its upper end a retaining portion for fastening in a tine mount and which merges at its lower end into a tine plate. In this, a sensitive element of a sensor is arranged in a recess of the tine shaft, and the tamping tine includes a coupling element for transmission of a sensor signal. In this manner, the tamping tine fulfils a sensor function for recording measuring values occurring in the tamping tine.

The invention relates to a tamping tine for a tamping machine for tamping a track, including a tine shaft which has at its upper end a retaining portion for fastening in a tine mount and which merges at its lower end into a tine plate. In this, a sensitive element of a sensor is arranged in a recess of the tine shaft, and the tamping tine includes a coupling element for transmission of a sensor signal. In this manner, the tamping tine fulfils a sensor function for recording measuring values occurring in the tamping tine.

A tamping machine has a tamping unit for simultaneously tamping sleepers of a track that are positioned directly behind one another. Tamping unit segments are arranged one behind the other. Each tamping unit segment has a height-adjustable tamping tool carrier on which opposing tamping tools are mounted that are coupled to a vibration drive via squeezing cylinders. The respective vibration drive has an eccentric shaft with first and second eccentric discs, the axes of symmetry of which, together with a common axis of rotation, span two eccentric planes that enclose a relative angle to one another. A first squeezing cylinder is mounted on the first eccentric disc. An opposing second squeezing cylinder is mounted on the second eccentric disc. Cylinder axes of the opposing squeezing cylinders enclose a position angle which is approximated to the relative angle of the eccentric planes.

A tamping machine has a tamping unit for simultaneously tamping sleepers of a track that are positioned directly behind one another. Tamping unit segments are arranged one behind the other. Each tamping unit segment has a height-adjustable tamping tool carrier on which opposing tamping tools are mounted that are coupled to a vibration drive via squeezing cylinders. The respective vibration drive has an eccentric shaft with first and second eccentric discs, the axes of symmetry of which, together with a common axis of rotation, span two eccentric planes that enclose a relative angle to one another. A first squeezing cylinder is mounted on the first eccentric disc. An opposing second squeezing cylinder is mounted on the second eccentric disc. Cylinder axes of the opposing squeezing cylinders enclose a position angle which is approximated to the relative angle of the eccentric planes.

For tamping a track, tamping tines are squeezed towards one another in pairs by a squeezing cylinder. A vibration is superimposed on a linear lift motion of a squeezing piston movable in the squeezing cylinder. The vibration is generated by a vibration piston which is arranged in the squeezing cylinder and which is movable independently of the squeezing piston.

For tamping a track, tamping tines are squeezed towards one another in pairs by a squeezing cylinder. A vibration is superimposed on a linear lift motion of a squeezing piston movable in the squeezing cylinder. The vibration is generated by a vibration piston which is arranged in the squeezing cylinder and which is movable independently of the squeezing piston.