A guide track includes a guide rail having a guide groove opened upward in which guide wheels are inserted, and formed with guide surfaces for causing each of the guide wheels to roll at both sides of a traveling course in a width direction; conductor rails that are placed at both sides of an outside of the traveling course in the width direction with respect to the guide groove to perform contact electricity supply by pressing a power collection shoe of a power collector of a track-based vehicle; a first insulator that supports the conductor rails with respect to the guide rail; and insulation plates that are provided at both sides of the conductor rail in the width direction, and are provided in parallel to the conductor rail and in parallel to a pressing direction of the power collection shoe.

Rail conveyor element which can be displaced on a rail system with intersecting rails, includes a base and a wheel-bearing cassette which supports the base and in which at least one wheel is accommodated to rest on a rail, the wheel-bearing cassette is rotatably mounted around a vertical axis relative to the base and the rail conveyor element includes a pressure ram with actuator which extends downward on or below the base and can be displaced between a raised unloaded position which coincides with the transport position of the rail conveyor and a lowered loaded position to unload the wheel-bearing cassette relative to the rail.

Rail conveyor element which can be displaced on a rail system with intersecting rails, includes a base and a wheel-bearing cassette which supports the base and in which at least one wheel is accommodated to rest on a rail, the wheel-bearing cassette is rotatably mounted around a vertical axis relative to the base and the rail conveyor element includes a pressure ram with actuator which extends downward on or below the base and can be displaced between a raised unloaded position which coincides with the transport position of the rail conveyor and a lowered loaded position to unload the wheel-bearing cassette relative to the rail.

A rail expansion device compensates for an expansion of a first rail with respect to a second rail. The rail expansion device joins the first rail to the second rail. The expansion device has a front connecting rail, containing a front end and a rear end, wherein the front end is configured for connecting to the first rail. A rear connecting rail, has a front end and a rear end, wherein the rear end is configured for connecting to the second rail. A splice joint is provided and configured for slidably connecting the rear end to the front end. The splice joint defines a continuous running surface from the front connecting rail to the rear connecting rail, wherein the continuous running surface has a variable longitudinal length configured for varying in function of a width of an expansion gap separating the front connecting rail from the rear connecting rail.

A rail expansion device compensates for an expansion of a first rail with respect to a second rail. The rail expansion device joins the first rail to the second rail. The expansion device has a front connecting rail, containing a front end and a rear end, wherein the front end is configured for connecting to the first rail. A rear connecting rail, has a front end and a rear end, wherein the rear end is configured for connecting to the second rail. A splice joint is provided and configured for slidably connecting the rear end to the front end. The splice joint defines a continuous running surface from the front connecting rail to the rear connecting rail, wherein the continuous running surface has a variable longitudinal length configured for varying in function of a width of an expansion gap separating the front connecting rail from the rear connecting rail.

A track system for transporting people and goods with two support rails plus a side stabilizer mechanism associated with one or both rails. The side stabilizer is employed to provide lateral stability and keep a vehicle's rail wheels on the support rails. The side stabilizer may be a protruding bar or a recessed groove. This track system enables vehicles to change support rails at a junction with stationary non-switching rails. Rail wheels roll over the support rails and support the weight of the vehicle while on the rails. Interior side rollers contact the interior of the bar side stabilizer and maintain the vehicle's rail wheels centered over the support rails. Exterior side rollers contact an exterior of one of the bar side stabilizers and forces the vehicle to stay on the current track or to change to a different track. Recessed grooves and dual-flange wheels can alternately provide side stabilization. At track junctions the vehicle can change direction, pass other vehicles, change lanes, turn-around, and load or unloading passengers or freight. This track system may be integrated with a conventional road system or with a controlled-access (autobahn/interstate) highway system. Optional road wheels allow the vehicle to exit the track system and travel on conventional roads, or dual-mode road/rail wheels can be used for travel on both track and pavement. An automatic traffic control system controls traffic on the track system and enables self-driving vehicles. Powering for the vehicles can be provided by the track system. The system can be miniaturized and used for the model/toy market.

A track system for transporting people and goods with two support rails plus a side stabilizer mechanism associated with one or both rails. The side stabilizer is employed to provide lateral stability and keep a vehicle's rail wheels on the support rails. The side stabilizer may be a protruding bar or a recessed groove. This track system enables vehicles to change support rails at a junction with stationary non-switching rails. Rail wheels roll over the support rails and support the weight of the vehicle while on the rails. Interior side rollers contact the interior of the bar side stabilizer and maintain the vehicle's rail wheels centered over the support rails. Exterior side rollers contact an exterior of one of the bar side stabilizers and forces the vehicle to stay on the current track or to change to a different track. Recessed grooves and dual-flange wheels can alternately provide side stabilization. At track junctions the vehicle can change direction, pass other vehicles, change lanes, turn-around, and load or unloading passengers or freight. This track system may be integrated with a conventional road system or with a controlled-access (autobahn/interstate) highway system. Optional road wheels allow the vehicle to exit the track system and travel on conventional roads, or dual-mode road/rail wheels can be used for travel on both track and pavement. An automatic traffic control system controls traffic on the track system and enables self-driving vehicles. Powering for the vehicles can be provided by the track system. The system can be miniaturized and used for the model/toy market.

A sawtooth station comprising a passenger waiting area; an autonomous vehicle area sized to allow autonomous vehicles to simultaneously travel in opposite directions of travel and turn around; and one or more sawtooth berths separating the passenger waiting area from the autonomous vehicle area, whereby autonomous vehicles traveling in in opposite directions use the one or more sawtooth births and the autonomous vehicles furthest from the one or more sawtooth berths can turn around in the autonomous vehicle area in order to stop at the one or more sawtooth berths.

A sawtooth station comprising a passenger waiting area; an autonomous vehicle area sized to allow autonomous vehicles to simultaneously travel in opposite directions of travel and turn around; and one or more sawtooth berths separating the passenger waiting area from the autonomous vehicle area, whereby autonomous vehicles traveling in in opposite directions use the one or more sawtooth births and the autonomous vehicles furthest from the one or more sawtooth berths can turn around in the autonomous vehicle area in order to stop at the one or more sawtooth berths.

An expansion joint construction may include at least one adjustment element movable in a longitudinal direction of the expansion joint construction. The at least one adjustment element may include at least one element for taking up a force applied in a longitudinal direction.