Provided are an emergency power supply method for a container terminal and a container terminal, which supply emergency electric power by using a cargo handling machine as a power source in an emergency situation due to electric outage of the container terminal, or the like. In an emergency where an incoming panel (2) of the container terminal (1) cannot supply electric power, yard cranes (11a) to (11c) (cargo handling machines) configured to operate in the container terminal (1) are used as power sources, in which one (the yard crane (11a)) of the plurality of yard cranes (11a) to (11c) (cargo handling machines) is used as a reference power source, and power conditioning units are included which configured to match phases of electric powers of the remaining yard cranes (11b) and (11c) to a phase of electric power of the reference power source, such that electric power is supplied from the plurality of yard cranes (11a) to (11c) to the incoming panel (2).

Provided are an emergency power supply method for a container terminal and a container terminal, which supply emergency electric power by using a cargo handling machine as a power source in an emergency situation due to electric outage of the container terminal, or the like. In an emergency where an incoming panel (2) of the container terminal (1) cannot supply electric power, yard cranes (11a) to (11c) (cargo handling machines) configured to operate in the container terminal (1) are used as power sources, in which one (the yard crane (11a)) of the plurality of yard cranes (11a) to (11c) (cargo handling machines) is used as a reference power source, and power conditioning units are included which configured to match phases of electric powers of the remaining yard cranes (11b) and (11c) to a phase of electric power of the reference power source, such that electric power is supplied from the plurality of yard cranes (11a) to (11c) to the incoming panel (2).

The invention relates to a positioning zone (EB) for a travel path (1), wherein the travel path (1) has at least one guide rail (2, 3) and the guide rail (2, 3) is used to guide a current collector trolley (11), provided with current collector contacts (12), of a current collector system (10) arranged on a vehicle which can move along the travel path (1), and the travel path (1) has at least one travel path conductor bar (5), wherein the current collector trolley (11) can be moved horizontally and vertically to the travel path (1) in the positioning zone (EB) by a positioning device of the current collector system (10), characterized in that at least one further conductor bar (5) is arranged in the region of the positioning zone (EB) or at least one travel path conductor bar (5) extends and/or is extended into the positioning zone (EB) beyond at least one guide rail (2, 3) of the travel path (1).

The invention relates to a positioning zone (EB) for a travel path (1), wherein the travel path (1) has at least one guide rail (2, 3) and the guide rail (2, 3) is used to guide a current collector trolley (11), provided with current collector contacts (12), of a current collector system (10) arranged on a vehicle which can move along the travel path (1), and the travel path (1) has at least one travel path conductor bar (5), wherein the current collector trolley (11) can be moved horizontally and vertically to the travel path (1) in the positioning zone (EB) by a positioning device of the current collector system (10), characterized in that at least one further conductor bar (5) is arranged in the region of the positioning zone (EB) or at least one travel path conductor bar (5) extends and/or is extended into the positioning zone (EB) beyond at least one guide rail (2, 3) of the travel path (1).

A conductor line for supplying an electric load movable on the conductor line in the longitudinal direction of the conductor line, includes at least one conductor strand which runs in the longitudinal direction and has an electrically conductive profiled conductor section for contacting a sliding contact of a current collector of the load and at least one elongated slotted waveguide, which runs in the longitudinal direction, with a longitudinal slot for receiving an antenna which can be moved together with the load. A related current collector and a conductor line system are also provided. The aim is to allow a compact and material-saving design with good fault-tolerant transmission. This is achieved by a conductor line in which the longitudinal slot is tilted by an angle which does not equal 90 about the longitudinal direction with respect to a movement plane on which the current collector can be moved, by a current collector in which the antenna or a part thereof is completely or partly tilted by an angle which also does not equal 90 about the longitudinal direction with respect to the movement plane, and by a conductor line system including such a conductor line and current collector.

A conductor line for supplying an electric load movable on the conductor line in the longitudinal direction of the conductor line, includes at least one conductor strand which runs in the longitudinal direction and has an electrically conductive profiled conductor section for contacting a sliding contact of a current collector of the load and at least one elongated slotted waveguide, which runs in the longitudinal direction, with a longitudinal slot for receiving an antenna which can be moved together with the load. A related current collector and a conductor line system are also provided. The aim is to allow a compact and material-saving design with good fault-tolerant transmission. This is achieved by a conductor line in which the longitudinal slot is tilted by an angle which does not equal 90 about the longitudinal direction with respect to a movement plane on which the current collector can be moved, by a current collector in which the antenna or a part thereof is completely or partly tilted by an angle which also does not equal 90 about the longitudinal direction with respect to the movement plane, and by a conductor line system including such a conductor line and current collector.

One three-phase transformer (71A) out of two paired three-phase transformers among three-phase transformers provided for respective feeder lines outputs, as operating power, first three-phase AC power of the same voltage phase as that of power-supply power. The other three-phase transformer (71B) out of the two paired three-phase transformers outputs, as the operating power, second three-phase AC power of a voltage phase shifted by /6 from that of the power-supply power. The power storage device (4) of a crane apparatus (10) stores DC power supplied from a three-phase full-wave rectifier (1) to a common bus (B), and supplies the stored power to the common bus (B) upon reduction of the DC power.

One three-phase transformer (71A) out of two paired three-phase transformers among three-phase transformers provided for respective feeder lines outputs, as operating power, first three-phase AC power of the same voltage phase as that of power-supply power. The other three-phase transformer (71B) out of the two paired three-phase transformers outputs, as the operating power, second three-phase AC power of a voltage phase shifted by /6 from that of the power-supply power. The power storage device (4) of a crane apparatus (10) stores DC power supplied from a three-phase full-wave rectifier (1) to a common bus (B), and supplies the stored power to the common bus (B) upon reduction of the DC power.

Disclosed is a crane and a tractor used at a container base of a harbor or a container terminal, and more particularly, a charging system in which a power supplying device capable of supplying power in a contactless fashion is installed at the crane and a power collecting device capable of receiving power from the power supplying device is installed at the tractor, so that the tractor receives power from the power supplying unit installed at the crane while performing lifting or landing works below the crane to charge power required for movement of the tractor.

Disclosed is a crane and a tractor used at a container base of a harbor or a container terminal, and more particularly, a charging system in which a power supplying device capable of supplying power in a contactless fashion is installed at the crane and a power collecting device capable of receiving power from the power supplying device is installed at the tractor, so that the tractor receives power from the power supplying unit installed at the crane while performing lifting or landing works below the crane to charge power required for movement of the tractor.