WO2019120883A1 - Rail vehicle having an extraction pipe - Google Patents

Abstract

The invention relates to a rail vehicle (1) which has a waste water tank (10), an extraction pipe (20) which is connected to the waste water tank (10) and leads from the waste water tank (10) to an extraction connection (30) for extracting the waste water, and comprises a shut-off valve (22) which is introduced into the extraction pipe (20) and which, in an opened state, opens the extraction pipe (20) and, in a closed state, closes the extraction pipe (20). Furthermore, the rail vehicle (1) comprises a compressed air pipe (40), which is connected via a compressed air connection (42) to the extraction pipe (20) and, in the closed state of the shut-off valve (22), is configured to introduce compressed air into the extraction pipe (20) via the compressed air connection (42), the compressed air connection (42) being positioned between the shut-off valve (22) and the waste water tank (10).

Description

description

Rail vehicle with suction line

The present invention relates to a rail vehicle with suction.

The wet cells in rail vehicles also include the water container from where the accumulated in the toilets and hand basins wastewater is collected. At regular intervals, the wastewater tank is emptied via a suction line. For this purpose, a mobile or stationary extraction system is connected to a Absaugan connection outside the vehicle. In the vicinity of the suction port be there is a ball valve or other shut-off valve with which the suction line is opened. With a pump he testifies the suction of a negative pressure of 0.6 to 0.8 bar, whereby the wastewater is sucked out of the wastewater tank.

In general, the suction lines are designed for internal water tanks from the bottom so that the wastewater is sucked in the wastewater, the suction leads upwards from the wastewater tank and the suction is the lowest point of the suction, so that the waste water can be easily ge promotes. For the height of the suction connection to the vehicle, a minimum and maximum height is specified for the operation. Also, the vehicle contour does not always allow a displacement of the suction with the suction as the lowest point. There are vehicles, for example, double-decker vehicles, in which the suction line is laid in the rail vehicle under the floor and the suction connection is clearly above this level Lich. By the Absau tion upward from the wastewater tank addition, then down to below the floor and back up to the suction connection results in a sink or U-shape of the suction. The lowest point of the suction line can not be completely emptied constantly, because as soon as the wastewater container is empty, air is sucked in and the flow breaks off. It remains wastewater in the lowest point and can not be sucked off. This wastewater can freeze in winter and damage the Absauglei device or clogged.

The U-shape is only one form of suction, which can be problematic and for which the present invention provides a solution. In other Absaugleitungsformen can disadvantageously large amounts of wastewater remain in the Absauglei device. For example, in an interruption of the suction because, for example, in a mobile from sauganlage the relatively small container is full, the suction line adversely remain filled with wastewater residues.

By suitable positioning of the suction connection, the above-mentioned problems can be partially reduced. However, such positions are unpractical for the operator and furthermore usually not compliant with the standard.

The task is to develop a rail vehicle with suction line, in which easily and inexpensively residual or residual wastewater from the suction line can be removed.

According to the invention, a rail vehicle is available, which comprises a wastewater container. Further, the rail vehicle summarizes a suction line, which is connected to the waste water tank and from the Abwasserbehäl ter to a suction port for sucking the waste water ge leads. The rail vehicle further includes a suction line in the introduced from the shut-off valve, which opens the suction line in a ge opened state and closes the suction line in a ge closed state. Furthermore, the rail vehicle summarizes a compressed air line, which is connected via a compressed air connection to the suction line and is set up in the closed state of Shut-off valve Introduce compressed air into the suction line via the compressed air connection with the compressed air connection positioned between the shut-off valve and the waste water tank.

By compressed air is meant in particular compressed air, which has a pressure of several bar, for example more than 5 bar, 8 bar or even 10 bar. A compressed air line is a line which is designed to withstand pressure air and to direct compressed air. An external extraction system for extracting the waste water from the waste water tank can be connected to the suction connection. As a shut-off valve, for example, a ball valve into consideration, the invention is not limited thereto.

The invention has the advantage that can be blown back via the compressed air line by means of compressed air residual or residual wastewater in the suction in the sewage tank. In this case, the compressed air flows through the compressed air connection in the suction line, is stopped by the shut-off valve located in ge closed state and builds a pressure between the shut-off valve and the fancy surrounded sewage, whereby the remaining waste water is pressed into the water container from. The solution for emptying the suction line with a compressed air line is a simple means and increases the reliability. Bursted or clogged suction lines, such as may be done by a freezing in the suction wastewater, can lead to downtime of the toilet and repair measures, which is avoided by the present invention by the return of wastewater into the wastewater tank with compressed air. Furthermore, the designer is more free in the planning of the course of the suction, with long or complicated courses of the suction can be avoided with the present invention vorlie ing. The Druckluftlei device is connected to the suction in such a way that as possible no sewage can penetrate into the compressed air line. The design with the compressed air line is simple and can also be retrofitted for existing rail vehicles, since apart from the additional components no structural changes have to be made.

Preferably, the suction line comprises a drain between the waste water tank and the shut-off valve, wherein the compressed air connection between the sink and the shut-off valve is positio ned. Especially in suction lines, which have a sink or in other words a U-shape, typi cally, a residual amount of wastewater remains within the suction line in each suction, in particular within the sink. By positioning the compressed air connection between the drain and the shut-off valve can thus be pressed by the pressure air particularly effective, the remaining wastewater from the sink back into the sewage tank or blown. In other words, a sink is a lo cal minimum in the course of the suction line.

Preferably, the compressed-air line is connected to a compressed air system positioned within the rail vehicle. As a result, an emptying of the suction line alone rail vehicle side without an external to the rail vehicle convincing connected compressed air supply possible. As a result, emptying can also take place efficiently and without any special effort.

The compressed air line preferably comprises a control valve wel ches opens in an open state, the compressed air line, so that compressed air is passed through the compressed air connection in the suction line, and in a closed state, the compressed air line closes, so that no compressed air is passed through the compressed air connection in the suction line. As a result, the supply of compressed air into the suction line can be controlled in a targeted manner.

Preferably, the rail vehicle comprises a control unit which is adapted to open the control valve when the shut-off valve is closed. This can Fully automatic triggering of the compressed air supply and thus emptying of the suction line done. As a control unit is, for example, the control of a wet cell into consideration, the invention is not limited thereto.

Preferably, the shut-off valve comprises a switch which is adapted to send a signal to the control unit upon closure of the shut-off valve, the control unit being adapted to open the control valve of the compressed air line in response to the signal. As a switch here is preferably a limit switch, also called position switch, into consideration.

Preferably, the control unit is adapted to close the control valve after a predetermined return blowing time. This automatically terminates the introduction of the compressed air into the suction line. The blow-back time may be, for example, 10 or 20 seconds, but the invention is not limited thereto.

Preferably, the control unit is adapted to alternately open and close the control valve during the blowback time. So instead of continuously supplying compressed air, compressed air is pulsed into the suction line in such an embodiment. As a result, an improved or more efficient blow-back of the rest of the waste water in the sewage tank can be done. In such a pulsed operation also advantageously less compressed air is consumed.

Preferably, the waste water tank comprises a Füllmesmes water for measuring the level of the waste water tank, wherein the control unit is adapted to read the level of the waste water tank and above a maximum level, the control valve to keep closed or close. When the compressed air is fed into a full Abwasserbehäl ter, which typically sits an overflow be and / or is vented, the sewage bubbles vigorously on, which adversely wastewater is forced into the overflow and large amounts of wastewater can come out of the rail vehicle. By suppressing the blowback at levels above a maximum level, such overflow is prevented.

Preferably, the suction line comprises a pressure sensor, wel cher po sitioned between the shut-off valve and the waste water container and is designed to measure the pressure within the suction line, wherein the control unit is adapted to open in response to the measured pressure, the re gelventil the compressed air line or keep closed. This can be checked to see if the suction line is full or clogged. For example, this can be done by means of a pressure surge of the control valve, which is then detected by the pressure sensor. Thus, it can be decided by the Steuerungsein unit advantageously based on the pressure measurement who the whether a return blow is to take place or not. The pressure sensor is preferably positioned at the compressed air connection.

Preferably, the suction pipe between the waste water tank and the shut-off valve comprises a level gauge for Mes sen of the level in the suction, the control unit is set up to read the measured level of the suction and the control valve of the pressure air line at a level above a Mindestfüll conditions to open. Thus, as required, a triggering of the blow-back take place when detected by means of the level meter, a minimum filling of the suction line is detected or detected.

Preferably, the compressed air line comprises a pressure reducer. The compressed air system of a railway vehicle typically produces compressed air with a pressure of up to 10 bar. This may be too high for the blowback application needed here. A pressure reducer can throttle this pressure, for example, a reduction in pressure by means of the pressure reducer rers to 5 bar, which is for the specific application the return blow is sufficient. With the pressure reducer thus a suitable pressure of the compressed air can be adjusted.

The rail vehicle may also include a manual switch, which is positioned externally on or in the rail vehicle and is adapted to open the control valve of the compressed air line. Thus, very easy and practical table for maintenance personnel by manually triggering the back blow done when the shut-off valve is closed ge accordingly.

The compressed air line can be routed to an external compressed air connection positioned on the outside of the rail vehicle. This allows an external compressed air system to be connected to the compressed air connection. Above all, such a solution allows easy retrofitting. A control unit and other additional components do not have to be integrated

The above-described features, features and advantages of this invention, as well as the manner in which these are achieved, will become clearer and more clearly understood in connection with the following description of the Ausführungsbei games that are erläu closer in connection with the drawings. Show it:

1 shows a rail vehicle according to the invention according to a first embodiment,

FIG. 2 shows a rail vehicle according to the invention according to a second embodiment,

Figure 3 shows a rail vehicle according to the invention according to a third embodiment, and

Figure 4 shows an inventive rail vehicle according to a fourth embodiment. FIG. 1 shows a rail vehicle 1 according to a first embodiment of the invention. The rail vehicle 1 comprises a wastewater container 10. In this wastewater container 10, waste water generated by using fresh water by users / passengers on the rail vehicle 1 can be collected or temporarily stored. For this purpose, for example, a sewer 80 for greywater and / or black water of a wet cell bezie as out of a toilet system 82 of the rail vehicle 1 to the wastewater tank 10 and connected to the Abwasserbehäl ter 10, so that the wastewater are passed from the water tank 10 in the can.

The rail vehicle 1 further comprises a suction line 20. The suction line 20 is connected to the waste water tank 10 is connected and leads from the waste water tank 10 to a suction connection from 30 to suck the wastewater. The Absaugan circuit 30 is preferably mounted on an outer side of the rail nenfahrzeugs 1, so that with an external can be connected to the suction 30 suction via this suction port 30, the wastewater from the waste water tank 10 and the suction line 20 can be sucked. Such a suction can take place if necessary.

The rail vehicle 1 further comprises a device in the Absauglei 20 introduced shut-off valve 22, which opens the suction line 20 in a ge opened state and closes the suction line 20 in a ge closed state. From the check valve 22 may be executed, for example, as a ball valve or from stopcock.

Furthermore, the rail vehicle 1 comprises a compressed air line 40. A compressed air line 40 is a line which is designed for conveying compressed air, ie air at high pressure for example in the range of several bar such as 5 bar or 10 bar. Such a compressed air line 40 thus differs from a conventional line. The compressed air line 40 is connected via a Druckluftan circuit 42 to the suction line 20. The compressed air connection 42 is positioned between the shut-off valve 22 and the wastewater container 10. The compressed air line 40 is designed to initiate or guide compressed air via the compressed air connection 42 into the suction line 20 in the closed state of the shut-off valve 22. The underlying de principle of the invention is that compressed air, which is introduced via the compressed air port 42 into the suction line 20 be fed as fed, can not escape through the closed shut-off valve 22. Rather, presses, bezie as pressed, or blows the compressed air in the suction 20 located residual wastewater back into the wastewater tank 10. The wastewater located in the suction 20, for example, a residual or residual waste water after a suction through a suction system be from. The blow-back of this wastewater has the part before that no wastewater in the suction line 20 remains and thus, for example, a freezing of this wastewater and associated blockages or damage to the suction line 20 can be avoided. In addition, the designer of the rail vehicle 1 is much freer in the spatial planning of the rail vehicle, since the suction line 20 does not have to follow a strictly predetermined course.

The compressed air line 40 is preferably connected to the suction line 20 in such a way that as far as possible no wastewater can penetrate into the compressed air line 40. For this purpose, as shown in the figures, a check valve 49 in the pressure air line 40 may be introduced, wherein the invention is not limited thereto. In particular, this check valve 49 may preferably be positioned in the vicinity of the compressed air port 42, so that no wastewater via the Druckluftan circuit 42 passes into the compressed air line 40. The invention can also be nachrüs for existing rail vehicles 1 th, since no or at least only a few structural changes must be made conditions. In this exemplary embodiment, the Absauglei device 20 a sink 24 between the waste water tank 10 and the shut-off valve 22. Here, the compressed air connection 42 is hereafter posi tioned between the sink 24 and the shut-off valve 22. Very often found in rail vehicles, the constellation that the suction line 20 has such a sink 24. Such sinks 24 are critical points at which de NEN residual waste accumulates and damage to example by freezing of the waste water to the Absauglei device 20 and blockages in the suction line 20 can lead. The positioning of the compressed air port 42 he also follows, for example, at the end of the shut-off valve 22 facing increase in the sink 24. The sink has a U-shape and forms a local minimum in the suction line 20. The described positioning of Druckluftan circuit 42 makes it possible that in the sink 24 Lich wastewater is blown back by means of the compressed air with closed from shut-off valve 22 into the waste water tank 10.

The compressed air line 40 is connected in this embodiment at play to a positio ned within the rail vehicle 1 compressed air system 44. Thus, an emptying of Absauglei device 20 can be done alone by the rail vehicle 1 itself and already existing in the rail vehicles 1

Compressed air lines 40 can be used to blow back the wastewater into the waste water tank 10.

To control the compressed air supply from the compressed air line 40 into the suction line 20, a re gelventil 46 is provided in this embodiment. In an open state of the re gelventils 46 while the compressed air line 40 is opened, so that compressed air via the compressed air port 42 into the suction line 20 is guided. In a closed state of the control valve 46, the compressed air line 40 is closed, so that no compressed air can be guided via the compressed air connection 42 into the suction line 20.

Furthermore, in this exemplary embodiment, a control unit 50 is provided. The control unit 50 opens the control valve 46 when the shut-off valve 22 is closed. The check valve 22 may further comprise a switch 23, for example, a limit switch, which detects the closing of the check valve 22 detected as detected. The switch 23 can, for example, upon closure of the shut-off valve 22, send a signal to the control unit 50 via a signal line S1 guided by the shut-off valve 22 for the control unit 50. The control unit 50 may in turn open the control valve 46 of the compressed air line 40 in response to the received signal. For this purpose, a control signal can be sent via a control unit S2 leading from the control unit 50 to the control valve 46. The control valve 46 has in this Ausfüh tion form also exemplifies a switch 47, for example, also a limit switch. These sub-processes take place automatically, so that the retention of wastewater residues in the suction line 20 is automatically prevented.

The control unit 50 preferably closes the control valve 46 automatically after a predetermined blow-back time. As can also be a control signal to the control valve 46 ge sends, so that the control valve 46 is closed after the expiry of the blowback time. The Rückblaszeit can wear for example 20 seconds or, for example, 10 seconds be, the invention is not limited to these numerical examples.

The control unit 50 may also be set so that the control valve 46 alternately ge opens and is closed during the Rückblaszeit. As a result, the compressed air is conveyed ge pulse in the suction line 20, resulting in a verbes serten or more efficient blowback in comparison can lead to a continuous supply of compressed air. In particular, small residues of wastewater can be better blown back into the waste water tank 10. In principle, the invention also includes that alternately continuous Lich and then pulsed compressed air into the suction line 20 ge leads. For example, compressed air can be passed into the suction line 20 in a first period of time, so that initially a large amount of waste water is returned to the water tank 10 from. In a second time section, which follows the first period, then pulsed compressed air can be fed into the suction line 20 who the, so then the residual wastewater is returned. Advantageously, the amount of compressed air is saved in pulsed operation.

FIG. 2 shows a rail vehicle 1 according to a second embodiment of the invention. In the following, compared with FIG. 1, only the differences will be discussed.

In comparison to the figure 1, the waste water tank 10 further comprises a level gauge 12, for example, a level sensor. The level gauge 12 in this case measures the filling level of the wastewater in the waste water tank 10. The control unit 50 can read the level of the waste water tank 10. This can be done, for example, by means of a Messdatenlei device Ml, which connects the level gauge 12 with the STEU erungseinheit 50, via which the level is transmitted to the control unit 50. The control unit 50, the control valve 46 then in the event that the filling level is above a maximum level, keep the control valve 46 is closed or alternatively close, if it was open. The latter may occur, for example, when the maximum level is exceeded only during the return blow. Advantageously, it can thus be avoided that

Compressed air in a crowded wastewater tank 10 passes. As a result, in particular the risk is reduced that wastewater via an overflow 14 of the waste water tank 10 or Belüf tion slots in larger quantities from the rail vehicle. 1 ausdringt. An overflow 24 can in principle also be present in the other embodiments, even if not explicitly shown there.

Furthermore, in this exemplary embodiment of the invention, the suction line 20 comprises a pressure sensor 26. The pressure sensor 26 is hereby positioned between the shut-off valve 22 and the wastewater container 10. Preferably, as shown in Figure 2, the pressure sensor 26 is positioned at the compressed air port 42, but the invention is not so limited. The pressure sensor 26 is hereby designed to measure the pressure within the suction line 20. By means of a measurement data line M2, which connects the pressure sensor 26 to the control unit 50, the measured pressure in the suction line 20 can be transferred to the control unit 50. The control unit 50 may then open or close the control valve 46 of the compressed air line 40 in response to the measured pressure. By means of the pressure sensor 26 can be checked by, for example, a small pressure surge, if the suction line 20 is full or clogged. Thus, it can then be decided on the basis of the measured pressure by the control unit 50, whether a return blowing by means of compressed air is to take place or not. Also, upon detection of overfilling or obstruction of the suction line 20, a warning to the service staff who the who then start, for example, a return blow from the outside ver, see the embodiment of Figure 3, or by a manual switch, see the Execution form according to FIG. 4

Also, the suction line 20 may include a level gauge 28 between the sewage tank 10 and the check valve 22, as shown in the present figure, for measuring the level in the suction line 20 include. This may be positioned at a suitable location within the suction line 20, for example in the rising part of the sink 24, where in the invention is not limited thereto. The level gauge 28 can detect whether the suction line 20 is filled. If the suction line 20 is filled, the measured fill level or the presence of waste water can be transferred to the control unit 50 via a measuring data line M3. The control unit 50 may then be adapted to read in the measured level of the suction line 20 and the control valve 46 of the compressed air line 40 at a filling level to open above a minimum level. The compressed air is then performed by the compressed air line 40 in the Absauglei device 20. This has the advantage that the triggering of the blowback occurs only when actually restli Ches wastewater in the suction line 20 by the Füllstandmes ser 28 is detected. Superfluous blowback and thus waste of compressed air is therefore avoided.

In this exemplary embodiment of FIG. 2, the compressed air line 40 has a pressure reducer 48. This is in this case between the control valve 46 and the Druckluftan circuit 42 positioned. The compressed air system 44 of a rail nenfahrzeugs 1 typically generates a compressed air with egg nem pressure of up to 10 bar, which may not be necessary or too high for the present Rückbla solution. A pressure reducer 48 installed in the compressed air line 40 can independently reduce the pressure to a lower pressure, for example 5 bar. With the pressure reducer 48 in particular a suitable pressure for the present Rückbla solution of wastewater can be adjusted. A specific implementation for the pressure reducer 48 may be based on empirical values, for example. Furthermore, the problem of overflow of waste water from the waste water tank 10 is prevented or at least mitigated by the pressure lower 48.

FIG. 3 shows a rail vehicle 1 according to a third embodiment of the invention.

The rail vehicle 1 has in comparison to Figure 1 in the water embodiment, a manual switch 60 or button. This is attached to the outside of the rail vehicle 1. Al ternative, not explicitly shown here, the manual Switch 60 may also be positioned in the rail vehicle 1. By means of the manual switch 60, the control valve 46 of the compressed air line 40 can be opened, for example, by service personnel. For this purpose, by way of example, as shown in the present FIG. 3, a control line S3 is provided between the switch 60 and the control valve 46 for the purpose of transmitting a control signal. Thus, the suction line 20 can be emptied by manual actuation, if simultane- ously the shut-off valve 22 is closed. The manual tripping Sen can also be done if, as described in connection with Figure 2, overfilling or obstruction of the suction line 20 by a pressure sensor, not shown in this figure 3 for clarity, is detected.

FIG. 4 shows a rail vehicle 1 according to a fourth embodiment of the invention. In this embodiment of the invention, the compressed-air line 40 is guided to an externally positioned on the rail vehicle 1 external Druckluftan circuit 70. At this compressed air connection 70, an external compressed air system can be connected, which directs the compressed air in the closed position of the check valve 22 in the suction line 20. Such an embodiment of the invention requires no control unit and no additional components, so that such a realization can be realized oh ne special effort. Such an embodiment is particularly easy to retrofit bar.

Although the invention has been illustrated and described in detail by way of preferred embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Claims

claims

A rail vehicle (1) comprising:

 - A wastewater container (10);

 - A suction line (20) which is connected to the waste water tank (10) and is guided by the waste water tank (10) to a suction port (30) for sucking the Ab water;

 - In the suction line (20) introduced Absperrven valve (22), which in an open state from the suction line (20) opens and in a closed state to the suction line (20) closes;

 - A compressed air line (40), which via a compressed air connection (42) to the suction line (20) is connected and is adapted to closed state Senlos the shut-off valve (22) compressed air via the compressed air connection (42) in the suction line ( 20), wherein the compressed air connection (42) between the shut-off valve (22) and the waste water container (10) is positioned.

2. Rail vehicle (1) according to claim 1, wherein the Absauglei device (20) comprises a depression (24) between the waste water tank (10) and the shut-off valve (22), wherein the Druckluftan circuit (42) between the sink (24) and the shut-off valve (22) is positioned.

3. Rail vehicle (1) according to one of the preceding claims, wherein the compressed air line (40) to a within the rail nenfahrzeugs (1) positioned compressed air system (44) is connected.

4. Rail vehicle (1) according to one of the preceding claims, wherein the compressed air line (40) comprises a control valve (46) which opens the compressed air line (40) in an open state, so that compressed air via the compressed air connection (42) in the suction line (20 ), and in a closed state, the compressed air line (40) closes, so that no compressed air via the compressed air port (42) in the Absauglei device (20) is guided.

5. Rail vehicle (1) according to claim 4, wherein the rail vehicle (1) comprises a control unit (50) which is adapted to open the control valve (46) when the shut-off valve (22) is closed.

6. Rail vehicle (1) according to claim 5, wherein the shut-off valve (22) comprises a switch (23) which is directed to send when closing the shut-off valve (22) signal to the control unit (50), wherein the control unit (50) is adapted to open the control valve (46) of the compressed air line (40) in response to the signal.

7. Rail vehicle (1) according to claim 5 or 6, wherein the control unit (50) is adapted to Shen the control valve (46) after a predetermined return blowing time Shen.

8. Rail vehicle (1) according to claim 7, wherein the control unit (50) is adapted to alternately open the control valve (46) during the blowback time and to close Shen.

9. Rail vehicle (1) according to one of the preceding claims 5 to 8, wherein the waste water tank (10) comprises a level gauge (12) for measuring the level of the waste water tank (10), wherein the control unit (50) is adapted to the level read the waste water tank (10) and above a maximum level, the control valve (46) to keep ge closed or close.

10. Rail vehicle (1) according to one of the preceding claims 5 to 9, wherein the suction line (20) comprises a pressure sensor (26) which is positioned between the compressed air port (42) and the shut-off valve (22) and for measuring the pressure within the Suction line (20) is formed, wherein the control unit (50) is adapted to in response to the measured pressure, the control valve (46) of the Druckluftlei device (40) to open or keep closed.

11. Rail vehicle (1) according to one of the preceding claims 5 to 10, wherein the suction line (20) between the waste water tank (10) and the shut-off valve (22) a Füllstandmes ser (28) for measuring the level in the suction line (20). comprising, wherein the control unit (50) is adapted to sen the measured level of the suction line (20) einzule sen and open the control valve (46) of the compressed air line (40) at a level above a minimum level.

12. Rail vehicle (1) according to one of the preceding claims, wherein the compressed air line (40) a pressure reducer (48) to summarizes.

13 rail vehicle (1) according to claim 4, wherein the rail vehicle (1) comprises a manual switch (60) which externally on the rail vehicle (1) mounted or in the rail vehicle (1) is positioned and is adapted to the control valve (60). 46) of the compressed air line (40) to open.

14. Rail vehicle (1) according to one of the preceding claims 1 to 2, wherein the compressed air line (40) to an outside of the rail vehicle (1) positioned external Druckluftan circuit (70) is guided.