Disclosed is an electrical connecting apparatus for supplying power to cars which are coupled to one another, including a first plug-in connector to which at least one cable is connected, and a corresponding second plug-in connector which is intended to be fastened to a car wall, in particular in a vertical lateral wall. The first plug-in connector and the second plug-in connector are each provided with one or more corresponding first contact elements or second contact elements which can be plug-connected in an insertion direction (A), and the cable of the first plug-in connector exits from the first plug-in connector in a first cable outlet direction (B) which is angled away in relation to the insertion direction (A). Also disclosed is a rail vehicle having at least two coupled cars, wherein each of the two coupled cars is provided with at least one electrical connecting apparatus as above described.

Disclosed is an electrical connecting apparatus for supplying power to cars which are coupled to one another, including a first plug-in connector to which at least one cable is connected, and a corresponding second plug-in connector which is intended to be fastened to a car wall, in particular in a vertical lateral wall. The first plug-in connector and the second plug-in connector are each provided with one or more corresponding first contact elements or second contact elements which can be plug-connected in an insertion direction (A), and the cable of the first plug-in connector exits from the first plug-in connector in a first cable outlet direction (B) which is angled away in relation to the insertion direction (A). Also disclosed is a rail vehicle having at least two coupled cars, wherein each of the two coupled cars is provided with at least one electrical connecting apparatus as above described.

A connector assembly includes a system connector having a system housing and a system bracket coupled with the system housing. The system bracket includes plural system power contact receptors that receive plural system power contacts. The plural system power contacts are separate from each other by one or more extensions coupled with the system bracket. A module connector is coupled with the system connector. The module connector includes a module housing and a module bracket coupled with the module housing. The module bracket includes plural module power contact receptors that receive plural module power contacts. Each of the plural module power contacts are separated from each other by one or more extensions coupled with the module bracket. Each of the plural system power contacts of the system bracket are configured to mate with one of the plural module power contacts of the module bracket as plural power contact assemblies.

A connector assembly includes a system connector having a system housing and a system bracket coupled with the system housing. The system bracket includes plural system power contact receptors that receive plural system power contacts. The plural system power contacts are separate from each other by one or more extensions coupled with the system bracket. A module connector is coupled with the system connector. The module connector includes a module housing and a module bracket coupled with the module housing. The module bracket includes plural module power contact receptors that receive plural module power contacts. Each of the plural module power contacts are separated from each other by one or more extensions coupled with the module bracket. Each of the plural system power contacts of the system bracket are configured to mate with one of the plural module power contacts of the module bracket as plural power contact assemblies.

A connector assembly includes a system connector having a system housing and a system bracket coupled with the system housing. The system bracket includes plural system power contact receptors that receive plural system power contacts. The plural system power contacts are separate from each other by one or more extensions coupled with the system bracket. A module connector is coupled with the system connector. The module connector includes a module housing and a module bracket coupled with the module housing. The module bracket includes plural module power contact receptors that receive plural module power contacts. Each of the plural module power contacts are separated from each other by one or more extensions coupled with the module bracket. Each of the plural system power contacts of the system bracket are configured to mate with one of the plural module power contacts of the module bracket as plural power contact assemblies.

A connector assembly includes a system connector having a system housing and a system bracket coupled with the system housing. The system bracket includes plural system power contact receptors that receive plural system power contacts. The plural system power contacts are separate from each other by one or more extensions coupled with the system bracket. A module connector is coupled with the system connector. The module connector includes a module housing and a module bracket coupled with the module housing. The module bracket includes plural module power contact receptors that receive plural module power contacts. Each of the plural module power contacts are separated from each other by one or more extensions coupled with the module bracket. Each of the plural system power contacts of the system bracket are configured to mate with one of the plural module power contacts of the module bracket as plural power contact assemblies.

A patient transfer apparatus is provided and includes a frame, a seat assembly coupled to the frame, and a track assembly coupled to the frame. The track assembly includes a moveable track for traversing stairs and a motor configured to drive the track. The apparatus further includes a control system. The control system includes a controller configured to control the motor and to adjust a speed of the apparatus based on at least one of an occupancy of the seat assembly upon traversing the stairs and a condition of the stairs.

The present invention discloses a train coupler structural health monitoring system. The system includes one or more sensors mounted to or integrated with the train coupler, a data acquisition unit for receiving signal or data from the sensors, and a processing unit for determining the train coupler's structural health based on the received signal or data. Inspections via the system can be performed in real time continuously or periodically while a train is in service. It can also be performed offline while a train is not in service. Inspection method can be either passive, where sensors collect signals without generating excitation signals to the structure, or active, where some sensors are used as actuators to actively send excitation signals to the structure and other sensors or the actuators themselves collect the structural response signals. The data acquisition unit receives signals or data from sensors. The processing unit processes sensor data acquired by the data acquisition unit and determines if there are structural changes or damages.

The present invention discloses a train coupler structural health monitoring system. The system includes one or more sensors mounted to or integrated with the train coupler, a data acquisition unit for receiving signal or data from the sensors, and a processing unit for determining the train coupler's structural health based on the received signal or data. Inspections via the system can be performed in real time continuously or periodically while a train is in service. It can also be performed offline while a train is not in service. Inspection method can be either passive, where sensors collect signals without generating excitation signals to the structure, or active, where some sensors are used as actuators to actively send excitation signals to the structure and other sensors or the actuators themselves collect the structural response signals. The data acquisition unit receives signals or data from sensors. The processing unit processes sensor data acquired by the data acquisition unit and determines if there are structural changes or damages.

Disclosed is an electrical connecting apparatus for supplying power to cars which are coupled to one another, including a first plug-in connector to which at least one cable is connected, and a corresponding second plug-in connector which is intended to be fastened to a car wall, in particular in a vertical lateral wall. The first plug-in connector and the second plug-in connector are each provided with one or more corresponding first contact elements or second contact elements which can be plug-connected in an insertion direction (A), and the cable of the first plug-in connector exits from the first plug-in connector in a first cable outlet direction (B) which is angled away in relation to the insertion direction (A). Also disclosed is a rail vehicle having at least two coupled cars, wherein each of the two coupled cars is provided with at least one electrical connecting apparatus as above described.