Embodiments of safety trucks incorporate multiple connection points to which a variety of attachments, or combinations of attachments, can be releasably and interchangeably coupled to enable their use with increased effectiveness to safeguard roadway construction, maintenance and repair personnel as they perform tasks within or relatively near to roadway workzones and worksites. Also, methods of operation of the safety truck embodiments enhance their ability to guard and protect roadway construction, maintenance and repair personnel while they work within or relatively near to roadway workzone and worksite locations.

A vehicle according to the present disclosure comprises an under unit which is equipped with a driving mechanism configured to rotate wheels of the vehicle, and an upper unit which is mounted on the under unit. The upper unit comprises an extension/contraction mechanism which is configured to extend or contract the upper unit according to a size of the under unit.

A vehicle according to the present disclosure comprises an under unit which is equipped with a driving mechanism configured to rotate wheels of the vehicle, and an upper unit which is mounted on the under unit. The upper unit comprises an extension/contraction mechanism which is configured to extend or contract the upper unit according to a size of the under unit.

A method, performed by a control device (100) of a first module (30, 40) of a vehicle (1), for electrically connecting the first module (30, 40) with a second module (30, 40) physically connected with the first module (30, 40), wherein the assembled vehicle (1) is configured to communicate with a control centre (200). The method includes the steps of: activating (s101) a communication device (50) in the first module (30, 40); transmitting (s102) information about the first module (30, 40) to the second module (30, 40), and receiving (s103) information about the second module (30, 40), via the communication device (50) for establishing an electrical connection; and transmitting (s104) a verification of the electrical connection towards the control centre (200).

The present disclosure is directed to a utility vehicle having a pivotable seat connected by a hinge to a fixed platform. The pivotable seat configured to pivot between a first position and a second position defining a standard seat location and a first wall of a cargo bay, respectively. A seatback is configured to form a second wall of a cargo bay when the pivotable seat is in the second position. First and second opposing side walls are positioned on either side of the pivotable seat. The side walls are configured to form barriers at either side of the cargo bay when the pivotable seat is in the second position.

The present disclosure is directed to a utility vehicle having a pivotable seat connected by a hinge to a fixed platform. The pivotable seat configured to pivot between a first position and a second position defining a standard seat location and a first wall of a cargo bay, respectively. A seatback is configured to form a second wall of a cargo bay when the pivotable seat is in the second position. First and second opposing side walls are positioned on either side of the pivotable seat. The side walls are configured to form barriers at either side of the cargo bay when the pivotable seat is in the second position.

A painted vehicle trim component such as a spoiler, side-view mirror housing, or other vehicle body part is provided with electroluminescent paint to emit light from its surface. The trim component includes a substrate having a mounting surface for attaching to the vehicle. A conductor body is at least partially embedded in the substrate to provide a conductive surface exposed externally of the substrate. A conductive wire is crimped to the conductor body and is adapted to connect to an electrical power source remotely from the vehicle trim component. A conductive bus bar paint layer is deposited over the substrate and onto the exposed conductive surface of the conductor body. A light-emitting paint layer deposited over the substrate is disposed relative to the conductive paint layer such that light is emitted when an electrical signal is received at the conductive wire.

A ramp structure for a mobile platform includes a housing structured to be mounted on the mobile platform, and a ramp member coupled to the housing so as to be movable with respect to the housing. At least one airbag is operably coupled to the housing and is configured to be inflatable to move the ramp member from a retracted position to an extended position in which the ramp member defines a ramp structured to guide a wheel of a subject vehicle onto an exterior surface of the housing.

A ramp structure for a mobile platform includes a housing structured to be mounted on the mobile platform, and a ramp member coupled to the housing so as to be movable with respect to the housing. At least one airbag is operably coupled to the housing and is configured to be inflatable to move the ramp member from a retracted position to an extended position in which the ramp member defines a ramp structured to guide a wheel of a subject vehicle onto an exterior surface of the housing.

The invention relates to a stackable transport trolley, in particular a stackable shopping trolley, comprising a chassis and a basket; the chassis includes a support frame and a frame of rods which is arranged on the support frame, the frame of rods supporting the basket.