EP2805866A2 - Method for operating a device unit of a rail vehicle - Google Patents

Abstract

The invention relates to a method for operating a device unit (30) of a first rail vehicle (14) while traveling along a railway line (10). In order to provide an improved method which enables predictive operation of the device unit, it is proposed that - while a second rail vehicle (16) is traveling along at least one section (12.3) of the railway line (10), at least one value of a weather parameter (T) for a weather condition is recorded by a recording device (20) of the second rail vehicle (16), - The recorded value of the weather parameter (T) is transmitted to the first rail vehicle (14) and - At least during a time period (”t) before the first rail vehicle (14) travels along the section (12.3), a control process for controlling the device unit (30) based on the value of the weather parameter (T) takes place.

Description

The invention relates to a method for operating a device unit of a first rail vehicle while driving along a railway line.

Such methods for operating a device on board a rail vehicle during a journey are already known. A typical example is the control of an air conditioning unit which is subject to environmental conditions, e.g. the outside temperature is adjusted. In this and other applications in the rail vehicle, for example, a threshold value adjustment for a controlled variable as a function of environmental conditions.

The invention has for its object to provide an improved method that allows a predictive operation of the device unit.

For this purpose, it is proposed that during a journey of a second rail vehicle along at least a section of the railway track at least one value of a weather parameter for a weather condition is detected by a detection device of the second rail vehicle, the detected value of the weather parameter is transmitted to the first rail vehicle and at least during a period of time before a drive of the first rail vehicle along the section, a control process for controlling the unit of equipment takes place on the basis of the value of the weather parameter. As a result, an operation adapted to the weather condition in the section of the device unit of the first rail vehicle can be initiated before it reaches the section. By recording the value of the weather parameter by a rail vehicle currently traveling along the section, an efficient and up-to-date observation of the weather parameter can be easily achieved. The adapted operation of the device unit can advantageously during the journey of the first Rail vehicle continue along the section, so that a particularly large amount of time is available for optimized operation, which can therefore be controlled with increased flexibility and / or with optimization possibilities in terms of energy consumption. The method is particularly suitable for a railway line, which has sections due to their length and / or their geographical conditions, the weather conditions may differ significantly from each other. This is the case, for example, with a railway line traversing a mountain massif, with the climatic conditions on both sides of the massif varying considerably from one another. The method is also particularly suitable for a railway line having a long tunnel section, in particular a tunnel section of more than 30 km, wherein the weather conditions in the tunnel can deviate significantly from the weather conditions outside this. The first rail vehicle and the second rail vehicle can travel along the railway line in the same direction of travel, with the first rail vehicle following the second rail vehicle. The first rail vehicle and the second rail vehicle may travel in the opposite direction of travel along the railway line, so that the second rail vehicle is an oncoming rail vehicle as viewed from the first rail vehicle.

The device unit has at least one device or it may be formed by a single device. The device unit may also correspond to an aggregate of multiple devices associated with a same parent function.

A device is also preferably an electrically driven device.

A "drive" of a rail vehicle along a section is understood to mean a driving phase of the rail vehicle which begins on reaching the section and ends with leaving the section.

In order to transmit the value of the weather parameter, direct data communication between the first and the second rail vehicle can be established. According to a preferred embodiment of the invention, however, it is proposed that the value of the weather parameter is transmitted from the second rail vehicle to a ground-based data device and provided by it for transmission to the first rail vehicle, whereby increased flexibility in the use of the characteristic value by an advantageous centralization the same can be achieved. The data device can be housed in particular in a control center, which is provided for monitoring the railway line and anyway for communicating with the railway line moving rail vehicles.

It is also proposed that a location information of the first rail vehicle is determined and a transmission process for transmitting the value of the weather parameter from the data device to the first rail vehicle is triggered depending on the location information. In this case, a distance position arranged in front of the section in the direction of travel of the first railroad can be predefined along the railway line, so that it is triggered at a point in time such that the control process of the device unit is based at least partially on the value of the weather parameter Travel of the first rail vehicle along the section takes place and thus an optimal period of time for operating the device unit before reaching the section is available. The triggering of the transmission process is expediently carried out by comparing the location information with the preset route position. The location information can be provided by means of a locating device of the first rail vehicle and / or it can be determined by a device of a control center, which the Track of the rail vehicle tracked along the railway line. The detection of the location information can be done, for example, when the first rail vehicle passes a controlled by the control center signaling system. The transmission process can be triggered by a device of the rail vehicle and / or a device of the control center.

For the device unit of the rail vehicle, various configurations, such as e.g. an education as cooling unit for a drive device, conceivable. The method is particularly suitable for a device unit designed as an air-conditioning unit which serves for cooling or heating a passenger compartment of the first rail vehicle. An optimized operation of the device unit before reaching the section is particularly advantageous with respect to a control of a temperature of the passenger compartment inherent inertia.

It is further proposed that the device unit is operated on the basis of a control characteristic for which at least one threshold value is defined, which is adjusted in the control process. As a result, an intervention in a control of the device unit, which goes beyond the adjustment of a threshold, be avoided as possible for the implementation of the method. Thus, a simple retrofitting of an existing rail vehicle for carrying out the proposed method can be done with little effort.

According to an advantageous development of the invention, it is proposed that the first rail vehicle detects a further value of the weather parameter during the journey along the section, which is provided for transmission to a third rail vehicle if the values of the weather parameter differ from one another. Hereby, an update of the weather parameter in the considered section can be easily achieved.

The period of time prior to travel of the first rail vehicle along the portion in which the control operation for controlling the unit unit based on the transmitted value of the weather parameter can be used for an advantageous energy optimization by a braking energy at a braking operation of the first rail vehicle during the period is used to supply the device unit. In particular, a control strategy for the device unit may be implemented such that a maximum of the operating performance of the device unit is achieved during the braking process. This is particularly advantageous if this maximum operating performance can be covered at least by a substantial part of the braking power generated.

Figur 1:

eine Bahnstrecke, Schienenfahrzeuge und eine Leitstelle zu einem ersten Zeitpunkt in einer stark schematisierten Ansicht,

Figur 2:

eine Innenraumtemperatur in einem Schienenfahrzeug und einen Schwellwert derselben als Funktion der Zeit und

Figur 3:

die Bahnstrecke und die Schienenfahrzeuge aus Figur 1 zu einem zweiten, späteren Zeitpunkt.

An embodiment of the invention will be explained with reference to the drawings. Show it:

FIG. 1:

a railway line, rail vehicles and a control center at a first point in a highly schematized view,

FIG. 2:

an interior temperature in a rail vehicle and a threshold value thereof as a function of time and

FIG. 3:

the railway line and the rail vehicles FIG. 1 at a second later time.

FIG. 1 shows a railway line 10 in a highly schematic view. This connects two endpoints A and B and is formed as an order of multiple sections 12.1 to 12.7 geographically separated from one another. A section 12 may be a leg between two stops or stations or it may correspond to a stop or station area. Sections 12.4 and 12.6 each represent a station area and sections 12.1 to 12.3, 12.5 and 12.7 are located between two station areas or between a station area and an end point of the railway line 10. Section 12.2 corresponds to a tunnel section that traverses a mountain range that separates two regions from each other. The section 12.1 lies in a first region, while the section 12.3 is laid in a second region.

The railway line 10 is traveled in the considered embodiment of three rail vehicles 14, 16 and 18, which are located in different sections. A first rail vehicle 14 travels along the first section 12.1 in a direction of travel F in the direction of the end point B. It follows a second rail vehicle 16 which travels along the section 12.3 in the direction of travel F in the direction of the end point B. A third rail vehicle 18, after leaving the end point B, travels along the section 12.7 in the direction of travel F 'opposite the direction of travel F, in the direction of the end point A.

The rail vehicles 14 and 16 are located on both sides of the section formed as a tunnel section 12.2 and therefore in two regions whose weather conditions can differ significantly from each other.

The second rail vehicle 16 is equipped with a schematically illustrated detection device 20 which detects at least one value of a weather parameter T for at least one weather condition. In the considered embodiment, the weather parameter T is designed as a temperature parameter. The value of the weather parameter T is transmitted from the second rail vehicle 16 to a bottom-fixed, central data device 22 of a control center 23, which is assigned to the railway line 10 as shown during the journey of the second rail vehicle 16 along the section 12.3. The transmission takes place by means of a transmission unit 24 of the second rail vehicle 16. The value of the weather parameter T is assigned to the section 12.3 and the associated pair of Data (T, 12.3) is stored in a database of the data device 22. The assignment of the value of the weather parameter T to the section 12.3 can be done in the rail vehicle 16 or in the data device 22.

The associated pair of data, i. the value of the weather parameter T and its associated section 12.3, is provided by the data device 22 and is thus retrievable from the rail vehicles 14 and 18.

The first rail vehicle 14 is equipped with a locating device 28 which detects at least one locating parameter. The locator 28 may be part of a satellite-based location system, such as a GPS system. In this case, a location information can be determined on the basis of signals received by the locating device 28. The locating device 28 may alternatively be provided for communication with a trackside communication device, wherein locating information may be determined on the basis of signals of this communication device. The detection of a locating characteristic by the locating device 28 may alternatively or additionally by means of an optical detection, such. the capture of a balise done.

By evaluating the determined location information, the situation is detected in which the first rail vehicle 14 reaches a distance position X. The occurrence of this event triggers a transmission process in which the value of the weather parameter T assigned to the section 12.3 and detected by the second rail vehicle 16 is transmitted to the first rail vehicle 14. The first rail vehicle 14 is equipped with a receiving unit 29 for receiving the transmitted value.

The value of the weather parameter T is for a control operation of a unit designed as an air conditioning unit 30 of the first rail vehicle 14 included. This tax procedure is based on the FIG. 2 described in more detail.

FIG. 2 shows a diagram in which a trained as interior temperature in the first rail vehicle 14 control variable T _i and designed as a comfort temperature threshold T _soll for the controlled variable T _{i are shown} as a function of time t. The time t _Ueb , at which the value of the weather parameter T is transmitted to the first rail vehicle 14, and the times t _12.2 , t _12.3 , at which it reaches the section 12.2 or 12.3, are shown separately.

After receiving the value of the weather parameter T for the section 12.3 this is evaluated to establish a control strategy of the device unit 30. For example, it is determined that the temperature in the region of section 12.3 is lower than the temperature of the region of section 12.1 along which the first rail vehicle 14 is currently traveling. Following this realization, the threshold T _{soll is} increased by a control device of the first rail vehicle 10, so that a heating operation of the device unit 30 to increase the controlled variable T _{i is} initiated. The transmission process is triggered at the time t _Ueb such that the control process is initiated on the basis of the value of the weather parameter T before the first rail vehicle 14 reaches the section 12.3 to which the value of the weather characteristic T detected by the second rail vehicle 16 is assigned, ie before the journey of the first rail vehicle 14 along section 12.3. The period of time in which the control process takes place before reaching the section 12.3, is denoted by the reference numeral .DELTA.t.

At the end of the section 12.2 _braking takes place during a time interval .DELTA.t a braking operation of the first rail vehicle 14. The heat generated in this time interval .DELTA.t _brake braking energy is used with an increased power for operating the display unit 30, as taken from the slope of the control variable T _i can be. If the braking operation is known in advance, during a preceding preliminary phase, the power of the device unit 30 can be purposefully reduced, in order then to increase the power decrease during the braking process, so that a substantial part of the braking energy generated is used to supply the device unit 30.

FIG. 3 shows the railway line 10 at a later time. The first rail vehicle 14 now travels along the section 12.3, while the third rail vehicle 18 approaches the section 12.4. Like the second rail vehicle 16, the first rail vehicle 14 is equipped with a detection device 20 which detects at least one value of the weather parameter T. The first rail vehicle 14 detects the value while driving along the section 12.3. If the value is significantly different from the value of the weather parameter T previously acquired by the second rail vehicle 16, this new value is transmitted to the data device 22, in which the pair (T, 12.3) is updated with the new value. For this purpose, the first rail vehicle 14 is equipped with a transmission unit 24. This pair is provided for transmission to the third oncoming rail vehicle 18. This may retrieve the updated value which may be included in the control of a device unit of the third rail vehicle 18, the operation of that device unit being explained to the device unit 30 as anticipated - ie before the third rail vehicle 18 reaches section 12.3 - to the current weather condition along section 12.3.

Claims (7)

Method for operating a device unit (30) of a first rail vehicle (14) during a journey along a railway line (10), in which during a journey of a second rail vehicle (16) along at least one section (12.3) of the railway line (10), at least one value of a weather parameter (T) for a weather condition is detected by a detection device (20) of the second rail vehicle (16), - the detected value of the weather parameter (T) is transmitted to the first rail vehicle (14) and - At least during a period of time (At) before driving the first rail vehicle (14) along the portion (12.3) is a control process for controlling the device unit (30) based on the value of the weather parameter (T). Method according to claim 1,
characterized in that
the value of the weather parameter (T) from the second rail vehicle (16) is transmitted to a ground-based data device (22) and made available by it for transmission to the first rail vehicle (14). Method according to claim 2,
characterized in that
A location information of the first rail vehicle (14) is determined and a transmission process for transmitting the value of the weather parameter (T) from the data device (22) to the first rail vehicle (14) is triggered depending on the location information. Method according to one of the preceding claims,
characterized in that
the device unit (30) is designed as an air conditioning unit. Method according to one of the preceding claims,
characterized in that
the device unit (30) is operated on the basis of a control characteristic (T _i ) for which at least one threshold value (T _soll ) is defined, which is adjusted in the control process. Method according to one of the preceding claims,
characterized in that
the first rail vehicle (14) detects, during travel along the section (12.3), another value of the weather parameter (T) provided for transmission to a third rail vehicle (18) if the values of the weather parameter (T) deviate from one another. Method according to one of the preceding claims,
characterized in that
during a braking operation of the first rail vehicle (14) taking place during the period of time (Δt), a braking energy is used to supply the device unit (30).

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