WO2024052040A1 - Control of running-gear height by means of passenger boarding sensor - Google Patents

Abstract

The invention relates to a method for calibrating running-gear control for a rail vehicle, as well as to a rail vehicle and to a computer program product for carrying out the method, wherein at least one value of a vehicle height of a rail vehicle with respect to a railway-platform upper edge of a railway platform on the track for the rail vehicle is detected by means of at least one suitable measuring device of the rail vehicle, and a predefined value of a running-gear height is adjusted on the basis of the at least one detected value of the vehicle height by means of a suitably designed running-gear controller of the rail vehicle.

Description

Description

Chassis height control using a passenger entry sensor

The invention relates to a method for calibrating a chassis control system of a rail vehicle, as well as a rail vehicle and a computer program product for carrying out the method.

For comfortable entry and exit from a passenger rail vehicle, it is desirable to have a transition that is as level and horizontal as possible between the passenger platform and the entry area of the rail vehicle. Various so-called sliding steps or similar solutions have become known for bridging the gap between the platform and the vehicle, some of which can also be variably adjusted in height. However, the resulting height difference is limited. To ensure optimal adjustment of these adjustable step platforms, sensors can be used to determine the height and distance of the platform from where the vehicle is boarding. The publication WO 98/58148 A1 teaches a rail vehicle with appropriate sensors.

Due to subsequent settling behavior of a new vehicle after it has been put into operation, due to wear and tear, for example due to wheel wear, and due to changes in height due to uneven passenger platforms, the horizontal dimension changes continuously from platform to vehicle. In order to compensate for settling behavior or wear, the vehicle is adjusted using shims in the chassis area so that the vehicle lands within the permissible tolerance range. This also happens after the wheels have been turned off. This requires complex measurements of the vehicle and sometimes quite complex calculations of the deflection of the car body and tolerance analyzes in order to add individual inserts, as well as constant checking during production or Maintenance necessary. The invention is based on the object of simplifying the commissioning, operation and maintenance of rail vehicles.

The task is solved by the subject matter of the independent patent claims. Further developments and refinements of the invention can be found in the features of the dependent patent claims.

A method according to the invention for calibrating a chassis control system of a rail vehicle comprises the following method steps: a. Detecting at least one value of a vehicle height of a rail vehicle relative to an upper edge of a platform on the track of the rail vehicle by means of at least one suitable measuring device of the rail vehicle; b. Adjusting a predetermined value of a chassis height depending on the at least one recorded value of the vehicle height by a suitably designed chassis control of the rail vehicle.

A rail vehicle according to the invention is set up to carry out the method according to the invention. For this purpose, it includes the means already mentioned that are suitable for carrying out the respective process step:

- at least one measuring device for detecting at least one value of a vehicle height of a rail vehicle, in particular at least one car body of a rail vehicle, relative to an upper edge of a platform on the track of the rail vehicle;

- at least one chassis control for regulating a chassis height of at least one chassis of the rail vehicle, which is suitable for adjusting a predetermined value of a chassis height as a function of the at least one detected value of the vehicle height. When detecting the at least one value of the vehicle height relative to the top edge of the platform, in particular a vertical distance in the vertical direction between the top edge of the platform or a platform surface and a fixed point of the rail vehicle, in particular a fixed point of at least one car body of the rail vehicle, is measured, the rail vehicle is located on a track in front of the platform. It can be standing on the platform or, especially slowly, driving past it. The fixed point can e.g. B. a passenger entrance, i.e. in particular a floor in the area of an outside door. A front edge of the floor in the entry area is formed in particular by a so-called step bar. A platform is usually designed to be flat so that its surface for entry - its platform surface - lies on a level with its upper edge. The measuring device can, for example, be designed and aligned to detect a platform surface and a step bar in the entrance area of the rail vehicle in order to detect a distance between the platform surface and the step bar and thus a vehicle height relative to the top edge of the platform.

For this purpose, at least one sensor is used in particular to monitor passenger entry. According to a further development of the invention, the rail vehicle comprises, as a suitable measuring device for detecting the at least one value of the vehicle height of the rail vehicle relative to the upper edge of the platform on the track of the rail vehicle, at least one sensor for monitoring at least one passenger entrance of the rail vehicle. This is suitably designed, for example as a lidar sensor, and arranged in or on the rail vehicle and at least partially aligned with the platform. Process step a. is carried out in accordance with the further development by means of the at least one sensor for monitoring passenger boarding of the rail vehicle. Sensors for monitoring passenger boarding can be used to measure the distance from the passenger boarding to the platform, e.g. B. Gap- To close bridges appropriately or to recognize people on the track. Measured values for the height of a passenger entrance above the upper edge of a platform can be used to adjust the level of the passenger entrance to the platform by means of a movable step platform arranged in the area of the passenger entrance.

Here the process according to step a. recorded at least one value of the vehicle height of the rail vehicle relative to the upper edge of the platform on the track of the rail vehicle, if necessary pre-processed, transmitted to a chassis control.

In the subsequent process step b. a predetermined chassis height of at least one chassis of the rail vehicle is adjusted as a function of the measured vehicle height by the chassis control. The chassis control is suitably designed to receive the at least one detected value of the vehicle height, to process it further and to adjust the value of the chassis height of the at least one chassis of the rail vehicle, which is predetermined as normal, depending on the at least one detected value of the vehicle height.

The adjusted value of the chassis height can be saved by the chassis control, for example in a memory of the chassis control.

The adjusted value of the vehicle height can then be used to regulate the chassis by the chassis control system.

A further development of the invention is that process step b. follows: c. Controlling a chassis height of at least one chassis of the rail vehicle depending on the adjusted value of the chassis height by means of the suitable trained chassis control of the rail vehicle.

The chassis height is determined, among other things, by the height of the chassis' secondary suspension. Secondary springs are designed, for example, as height-adjustable air springs.

In a further development, the rail vehicle has at least one chassis with air suspension, in particular as a secondary suspension, with a height of the air suspension being regulated depending on the adjusted value of the chassis height by means of the suitably designed chassis control of the rail vehicle. The height of the air suspension is controlled, for example, by increasing or decreasing the filling pressure in the air spring.

With a chassis height, a vehicle height, i.e. the height of the rail vehicle car body supported on the chassis above the rail and thus also above the platform, is regulated depending on the adjusted and stored value.

The chassis control is assigned to the at least one chassis of the rail vehicle and is designed to regulate the height of the at least one chassis.

The rail vehicle can have a plurality of interconnected car bodies. Each car body can rest on one or more, especially two, chassis. So-called Jacobs bogies are also known, on which two car bodies are supported. The car bodies can also each have several doors. In particular, for each car body, at least one value of the vehicle height of the car body of the rail vehicle relative to the upper edge of the platform on the track of the rail vehicle is recorded by means of the at least one suitable measuring device of the rail vehicle. If necessary, at least one value of the driving time is displayed on each door of the car body. Vehicle height of the car body of the rail vehicle compared to the top edge of the platform is recorded. Subsequently, in particular for each chassis on which the respective car body is supported, the predetermined values of the respective chassis height can be adjusted depending on the recorded values of the vehicle height of the car body correspondingly supported on the chassis by the suitably designed chassis control of the rail vehicle. This means that the height of each chassis can be adjusted individually. Equally, the height of the running gear can be controlled depending on several recorded values of the vehicle height of the rail vehicle, for example by forming an average value or a median over the several recorded values of the vehicle height of the rail vehicle and using this mean value or median to adjust the respective predetermined values of the running gear heights become .

According to a further development, process step a. repeated on a predetermined number of platforms and method step b. First, an average value or a median is formed from the corresponding plurality of recorded values of the vehicle height, in particular by means of the suitably designed chassis control of the rail vehicle, in method step b. Then the value of the chassis height specified as normal is adjusted depending on the mean value or the median formed by the suitably designed chassis control of the rail vehicle. This can be done individually for each car of the rail vehicle.

Known sensors for monitoring passenger entrances are also used to provide height differences from the platform to the rail vehicle's door sills as a control variable for the chassis heights. This means that the running gear can regulate each passenger entrance on the train to the optimal height in order to achieve a level entrance, even with larger height differences. This can be accompanied by a significant cost reduction in the planning and implementation of measures that are conventionally carried out in order to meet the permissible height of the door sill over the entire period of use of the vehicle.

According to one embodiment of the invention, method step b follows. according to : d . Reading out the at least one adjusted value of the chassis height of the at least one chassis of the rail vehicle from the chassis control; e. Determining a deviation of the at least one adjusted value of the chassis height from the originally specified value of the chassis height; f. Selecting at least one wheel wear pad, in particular its thickness, depending on the determined deviation of the adjusted value of the chassis height from the originally specified value of the chassis height; g. Mount the selected wheel wear pad on the chassis and h. Specifying a new value of the chassis height depending on the determined deviation of the adjusted value of the chassis height from the originally specified value of the chassis height and depending, in particular on the thickness, of the at least one selected and mounted wheel wear pad for the chassis regulation, in particular for the height control, and saving the new specified value of the chassis height in the chassis control.

A distinction must be made between the at least one adjusted value of the chassis height and the value of the chassis height that was originally specified as normal and originally stored as normal in the chassis control.

Process step e. can precede: transmitting the at least one adjusted value of the chassis height of the least at least one chassis of the rail vehicle from the chassis control to a service or maintenance center. At least the assembly of the wheel locking inserts is carried out in the service or maintenance center, also known as a depot. The transmission between the rail vehicle and the land-based service or maintenance center can be carried out wirelessly. Then both the rail vehicle is suitably equipped for sending and the land-based service or maintenance center for receiving. Alternatively, process step d takes place. takes place in the shore-based service or maintenance center, also wirelessly or wired.

Process step e. can also take place in the landside service or maintenance center or can already be carried out by the chassis control of the rail vehicle. Accordingly, in process step d. In addition to the adjusted value of the chassis height, its deviation from the value of the chassis height that was originally specified as normal can also be read out and, if necessary, transmitted.

After mounting the at least one selected and mounted wheel wear pad, a new value for the chassis height is specified as normal in the chassis control. The other adjusted value of the chassis height that may still be stored can be deleted accordingly.

Process step f is further developed. Ahead :

- Detecting at least one value of a diameter of at least one wheel of the chassis of the rail vehicle;

- Turning off at least one wheel of the rail vehicle;

- Detecting at least one value of a diameter of the at least one turned wheel of the chassis of the rail vehicle;

- Determining a deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning; where the process steps f. to h. are: f. Selection of at least one wheel wear pad, in particular its thickness, depending on the determined deviation of the adjusted value of the chassis height from the originally specified value of the vehicle height and depending on the determined deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning ; g. Mount the selected wheel wear pad on the chassis and h. Specifying a new value of the chassis height in the chassis control depending on the determined deviation of the adjusted value of the chassis height from the originally specified value of the chassis height and depending on the determined deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning and depending, in particular, on the thickness, of the mounted wheel wear pad, especially for height adjustment of the chassis.

The values mentioned each relate to a chassis on which the relevant car body, whose vehicle height was recorded, rests. The relevant chassis control is, as already explained above, responsible for regulating the chassis.

The new specified value of the chassis height in the chassis control can also depend on other parameters be specified, for example depending on, for example, dimensional changes on the chassis or on the car body caused by settling behavior, material fatigue or wear, for example of primary springs, the secondary spring or previously introduced wheel wear inserts, etc.

As already stated above, the use of the at least one sensor serves to monitor passenger entry or the use of the vehicle height values detected by this sensor to calibrate the chassis control, in particular the height control, of the at least one chassis of the rail vehicle. This means that the level of the track can be adjusted so that the rail vehicle entrances are at the same level as the platform. In order to compensate for such height differences at every stop, i.e. at every platform, the chassis or of the chassis ad hoc but relatively complex. Therefore, such height differences can be advantageously compensated for with movable step platforms, so that the rail vehicle can be entered or exited in a stepless and barrier-free manner, in particular flat. Rather, a height level of the rail vehicle is preferably set over the entire length of time by means of the height control of each chassis. On the one hand, different wear or settling behavior of the wagons have to be compensated for and, on the other hand, the rail vehicle has to be adjusted to a known route that is to be traveled and its maintenance has to be significantly simplified. The height of the rail vehicle can be easily adjusted so that all platforms on the route and accessed are within a specified tolerance. On a given route, the individual platform heights usually only vary slightly, which can be compensated for by sliding steps or step platforms, as long as the vertical distances between the entrances and the platforms are within the specified tolerance.

This significantly simplifies the commissioning and maintenance of rail vehicles, as a vehicle does not have to be must be measured nimbly. The invention is suitable both for rail vehicles with sliding steps and for use on rail vehicles with fixed step bars.

A computer program product according to the invention comprises commands which, when the program is executed by a suitable mobile terminal, cause it to carry out the method according to the invention. A provision device for the computer program product stores the computer program product and/or makes it available for execution. The provision device is in particular a data carrier on which the computer program product is stored.

The invention allows for numerous embodiments. It is explained in more detail using the following figures, each of which shows an exemplary embodiment. The same elements in the figures are provided with the same reference symbols.

Fig. 1 shows schematically an embodiment of an entry area of a rail vehicle,

Fig. 2 shows a flowchart of an embodiment of the method according to the invention.

In Fig. 1 shows a car of a rail vehicle 1 schematically. Ski z is decorated with a car body 2 of the rail vehicle 1, which is supported on at least one chassis 7 and which has at least one entrance door 3. In the area of the entrance door 3 there is a sensor 4 for monitoring the passenger entrance 6, which is suitable for detecting at least one value of a vehicle height of the carriage 2 of the rail vehicle 1 relative to an upper edge of the platform 5 of the platform on the track of the rail vehicle 1 and to a value not shown To transmit chassis control for further processing. Fig. 2 illustrates an example of a flowchart of the method. According to process step a. First, at least one value of a vehicle height of the rail vehicle 1 relative to a platform upper edge 5 of a platform on the track of the rail vehicle 1 is recorded by means of at least one suitable measuring device 4 of the rail vehicle 1 and transferred to a chassis control of the rail vehicle 1, which according to method step b. then a predetermined value of a chassis height is adjusted depending on the at least one recorded value of the vehicle height of the rail vehicle 1.

Then, after process step c. a chassis height can be regulated depending on the adjusted value of the chassis height by means of the chassis control of the rail vehicle 1.

Claims

Patent claims

1 . Method for calibrating a chassis control system of a rail vehicle comprising the following method steps: a. Detecting at least one value of a vehicle height of a rail vehicle relative to an upper edge of a platform on the track of the rail vehicle by means of at least one suitable measuring device of the rail vehicle; b. Adjusting a predetermined value of a chassis height depending on the at least one recorded value of the vehicle height by a suitably designed chassis control of the rail vehicle.

2. Method according to claim 1, characterized in that method step b. follows: c. Controlling a chassis height depending on the adjusted value of the chassis height using the chassis control of the rail vehicle.

3. Method according to one of claims 1 or 2, characterized in that the rail vehicle has at least one chassis with air suspension, a height of the air suspension being regulated as a function of the adjusted value of the chassis height by means of the chassis control of the rail vehicle.

4. Method according to one of claims 1 to 3, characterized in that the rail vehicle has at least one sensor for monitoring a passenger entrance of the rail vehicle for detecting the at least one value of the vehicle height of the rail vehicle relative to the upper edge of the platform on the track of the rail vehicle, wherein method step a. by means of the at least one sensor for monitoring a passenger entrance of the rail vehicle is carried out. Method according to one of claims 1 to 4, characterized in that method step a. is repeated on a plurality of platforms and before method step b. a mean value or a median is formed from the plurality of recorded values of the vehicle height by means of the chassis control of the rail vehicle, in method step b. an adjustment of the specified value of the chassis height takes place depending on the mean value or the median. Method according to one of claims 1 to 5, characterized in that method step b. follows: d. Reading out the adjusted value of the chassis height from the chassis control; e. Determining a deviation of the adjusted value of the chassis height from the specified value of the chassis height f. Selecting at least one wheel wear pad depending on the determined deviation of the adjusted value of the chassis height from the predetermined value of the vehicle height; g. Mount the selected wheel wear pad on the chassis and h. Specifying a value of the chassis height depending on the determined deviation of the adjusted value of the chassis height from the specified value of the chassis height and depending on the mounted wheel wear pad and storing the specified value of the chassis height in the chassis control. Method according to claim 6, characterized in that method step f. precedes:

- Detecting at least one value of a diameter of at least one wheel of a chassis of the rail vehicle; - Turning off at least one wheel of the rail vehicle;

- Detecting at least one value of a diameter of the at least one turned wheel of the rail vehicle;

- Determining a deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning off; where the process steps f. to h. are: f. Selecting at least one wheel wear pad depending on the determined deviation of the adjusted value of the chassis height from the predetermined value of the chassis height and depending on the determined deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning off; g. Mount the selected wheel wear pad on the chassis and h. Specifying a value of the chassis height depending on the determined deviation of the adjusted value of the chassis height from the predetermined value of the chassis height and depending on the determined deviation of the at least one recorded value of the diameter of the at least one wheel of the rail vehicle before and after turning off and depending on the mounted Wheel wear allowance and saving the specified value of the chassis height in the chassis control. Use of at least one value of a vehicle height of a rail vehicle compared to a vehicle height recorded by means of a sensor for monitoring passenger entry The upper edge of a platform on the track of the rail vehicle for calibrating a chassis height. Computer program product comprising commands which, when the program is executed by a suitable mobile terminal, cause it to carry out the method according to one of claims 1 to 7. Provisioning device for the computer program product according to claim 9, wherein the provisioning device stores and/or provides the computer program product. Rail vehicle (1) for carrying out the method according to one of claims 1 to 5 comprising:

- At least one measuring device (4) for detecting at least one value of a vehicle height of a rail vehicle relative to a platform upper edge (5) of a platform on the track of the rail vehicle;

- At least one chassis control for regulating a chassis height, which is designed to adjust a predetermined value of a chassis height depending on the at least one recorded value of the vehicle height. Rail vehicle (1) according to claim 11, characterized in that the at least one measuring device (4) is designed to detect at least one value of a vehicle height of a rail vehicle relative to a platform upper edge (5) of a platform on the track of the rail vehicle for monitoring passenger boarding of the rail vehicle. Rail vehicle (1) according to claim 12, characterized in that the at least one measuring device (4) for detecting at least one value of a vehicle height of a rail vehicle opposite an upper edge (5) of a platform on the track of the rail vehicle is a lidar sensor.