The present invention provides a branching unit, the height of which can be reduced, and a vehicular system. The branching unit includes a switch equipped with a fixed electrode and a movable electrode; a first bushing conductor which is connected either to the fixed electrode or to the movable electrode; and a second bushing conductor which is connected to the other of the fixed electrode and the movable electrode. A first T-shaped cable head is connected at one end to the first bushing conductor, a second T-shaped cable head is connected to a different end part of the first T-shaped cable head from the one end, a third T-shaped cable head is connected at one end to the second bushing conductor, the first T-shaped cable head and the second T-shaped cable head are respectively connected to different circuits, and surfaces of the respective T-shaped cable heads and the switch are at a ground potential.

The present invention provides a branching unit, the height of which can be reduced, and a vehicular system. The branching unit includes a switch equipped with a fixed electrode and a movable electrode; a first bushing conductor which is connected either to the fixed electrode or to the movable electrode; and a second bushing conductor which is connected to the other of the fixed electrode and the movable electrode. A first T-shaped cable head is connected at one end to the first bushing conductor, a second T-shaped cable head is connected to a different end part of the first T-shaped cable head from the one end, a third T-shaped cable head is connected at one end to the second bushing conductor, the first T-shaped cable head and the second T-shaped cable head are respectively connected to different circuits, and surfaces of the respective T-shaped cable heads and the switch are at a ground potential.

In a model coupler that detachably couples vehicles, energization between the vehicles in train organization is stabled regardless of curvature of a rail. A support member is swingable in line with the coupling part by extending from an attachment base side attached to a model vehicle toward a front end side facing the coupling partner and providing a front end under the coupling part. One energization part is attached to the support member and includes a first contact point formed on the attachment base side and a second contact point formed on the front end side. The first contact point is in contact with a first power collection member of the model vehicle, and the second contact point is in contact with a fourth contact point of the other energization part of the coupling partner.

An inserted connection member for a train connector includes an insertion needle, an insulator, a disconnection preventing pad and an extrusion block. The insulator is sequentially provided with a positioning hole and an inserted connection hole in an axial direction. The insertion needle includes a line connecting segment, a positioning segment and an inserted connection segment which are connected sequentially, the line connecting segment and the positioning segment are arranged in the positioning hole. The disconnection preventing pad and the extrusion block are both sleeved on the line connecting segment, and the disconnection preventing pad includes a pad body and a boss arranged on the pad body. Thus, the insertion needle is ensured to maintain a stable contact even when the train is running at a high speed, and a disconnection preventing effect of the insertion needle is achieved.

An inserted connection member for a train connector includes an insertion needle, an insulator, a disconnection preventing pad and an extrusion block. The insulator is sequentially provided with a positioning hole and an inserted connection hole in an axial direction. The insertion needle includes a line connecting segment, a positioning segment and an inserted connection segment which are connected sequentially, the line connecting segment and the positioning segment are arranged in the positioning hole. The disconnection preventing pad and the extrusion block are both sleeved on the line connecting segment, and the disconnection preventing pad includes a pad body and a boss arranged on the pad body. Thus, the insertion needle is ensured to maintain a stable contact even when the train is running at a high speed, and a disconnection preventing effect of the insertion needle is achieved.

Provided is a plug connection which ensures signal integrity, in particular at high data rates and with a large number of plug-in cycles, in a cost-effective manner. A dielectric is in each case arranged between the pin contacts of a connector and the socket contacts of a mating connector to ensure galvanic isolation and capacitive connection between them. In this way the connected circuit electronics can be simplified. There is no need for a coupling capacitor and impedance matching can be performed the geometric arrangement of the contacts. In particular, it ensures that there is a variety of different plug connections to choose from with different properties, in particular with different impedances and capacitances.

Provided is a plug connection which ensures signal integrity, in particular at high data rates and with a large number of plug-in cycles, in a cost-effective manner. A dielectric is in each case arranged between the pin contacts of a connector and the socket contacts of a mating connector to ensure galvanic isolation and capacitive connection between them. In this way the connected circuit electronics can be simplified. There is no need for a coupling capacitor and impedance matching can be performed the geometric arrangement of the contacts. In particular, it ensures that there is a variety of different plug connections to choose from with different properties, in particular with different impedances and capacitances.

A wiring system is described in particular for the electrical connection between a first and a second carriage of a railway vehicle; the wiring system has at least one mobile wiring having a first and a second end connected to a respective connector designed for coupling to fixed panel elements carried by facing outside walls of the first and respectively, second carriages. The mobile wiring has a single sheath enclosing a number of cables separate and distinct, each designed for a different application, jointly designed to provide complete connectivity in terms of data and control signals between the carriages. The wiring system also provides for a first and a second fixed wiring, each arranged at a respective carriage, and designed to interface electrically with a respective end of the mobile wiring for the corresponding electrical connection to on-board equipment.

A wiring system is described in particular for the electrical connection between a first and a second carriage of a railway vehicle; the wiring system has at least one mobile wiring having a first and a second end connected to a respective connector designed for coupling to fixed panel elements carried by facing outside walls of the first and respectively, second carriages. The mobile wiring has a single sheath enclosing a number of cables separate and distinct, each designed for a different application, jointly designed to provide complete connectivity in terms of data and control signals between the carriages. The wiring system also provides for a first and a second fixed wiring, each arranged at a respective carriage, and designed to interface electrically with a respective end of the mobile wiring for the corresponding electrical connection to on-board equipment.

A mover for an independent cart system includes a drive member for a linear drive system, a power source configured to supply electrical power to at least one device mounted on the mover, and a mounting plate secured to the mover. The mounting plate is configured to selectively receive one of multiple fixtures. The mounting plate includes at least one electrical connector configured to engage a complementary electrical connector on each of the fixtures, at least one connector configured to engage a complementary connector on each of the fixtures to positively retain each of the fixtures to the mounting plate, and a control circuit operative to either transfer at least one control signal to or receive at least one feedback signal from each of the fixtures.