End carriage of a railway vehicle and associated railway vehicle

Abstract

An end carriage that extends between a first free end and a second end intended to be connected to another carriage of the railway vehicle, the end carriage including a lower housing for a bogie made in proximity to the first end. The end carriage further includes at least one conduit, opening on the one hand into the lower housing, and opening on the other hand into the first end of the end carriage, and means for circulating air in the conduit.

Claims

1. An end carriage of a railway vehicle, extending between a first free end and a second end intended to be connected to another carriage of the railway vehicle, the end carriage including a lower housing for a bogie made in proximity to the first end, comprising: at least one substantially horizontal conduit, opening on the one hand into the lower housing, and opening on the other hand into the first end of the end carriage, and an air circulator circulating air in the horizontal conduit, able to generate an air flow in the horizontal conduit, from the lower housing to the first end of the end carriage, wherein: the air circulator is able to generate an air flow in the horizontal conduit, from the first end of the end carriage towards the lower housing; the air circulator is reversible, between a first configuration in which the air flow is generated from the lower housing towards the first end of the end carriage, and a second configuration in which the air flow is generated from the first end of the end carriage towards the lower housing.

2. The end carriage according to claim 1, wherein the air circulator is in the first configuration when the end carriage is laid out at the rear of the railway vehicle, and in the second configuration when the end carriage is laid out at the front of the railway vehicle.

3. The end carriage according to claim 1, wherein the air circulator is able to assume the first or the second configurations depending on operating conditions of the railway vehicle.

4. The end carriage according to claim 1, wherein the air circulator is configured to vary the speed of a generated air flow, according to a speed of displacement of the end carriage.

5. The end carriage according to claim 1, wherein the air circulator comprises at least one fan.

6. A railway vehicle, characterized in that it includes at least one end carriage according to claim 1.

7. The end carriage according to claim 1, wherein the air circulator is configured to generate an air flow in the horizontal conduit, from the lower housing to the first end of the end carriage.

8. The end carriage according to claim 1, wherein the air circulator is configured to generate an air flow in the conduit, from the first end of the end carriage towards the lower housing.

Description

DETAILED DESCRIPTION

(1) The invention will be better understood upon reading the description which follows, only given as an example and made with reference to the single appended FIGURE schematically and partly illustrating an end carriage according to an exemplary embodiment of the invention.

(2) In the FIGURE, an end carriage 10 intended to equip a railway vehicle, notably an intercity train is partly illustrated. For example, the railway vehicle includes such an end carriage 10 at each end.

(3) A railway vehicle may usually circulate in two opposite directions, so that each end carriage 10 may be a front or rear end carriage, depending on the direction of circulation. Thus, the end carriages 10 of the railway vehicle are generally identical, so that only one of them will be described.

(4) The end carriage 10 extends, in a longitudinal direction X, between a first free end 10A, and a second end 10B intended to be connected to another carriage of the railway vehicle. The first end 10A corresponds to the front or rear end of the railway vehicle, depending on the direction of circulation.

(5) The end carriage 10 has a general aerodynamic shape, notably having, conventionally, a profile comprising a tip 12 at the first end 10A. Such a tip 12 is also called a nose of the end carriage 10.

(6) The end carriage 10 moreover includes conventionally a lower housing 14 for a bogie 16. This lower housing 14 is made in proximity to the first end 10A. In other words, in the case when the end carriage 10 includes several lower housings for bogies, the lower housing 14 considered in the present description is the closest one to the first end 10A.

(7) The end carriage 10 according to the invention includes at least one conduit 18, opening on the one hand into said lower housing 14, and opening on the other hand at the first end 10A of the end carriage 10.

(8) Advantageously, each conduit 18 extends substantially horizontally. In other words, the ends of this conduit 18 are substantially found at the same height. Thus, each conduit 18 generally opens, on the one hand into a lower portion of the end carriage 10, and more particularly for example, below the nose 12 and, on the other hand, facing the bogie. The conduit 18 therefore extends advantageously substantially at the height of the bogie.

(9) For example, each conduit 18 has a diameter comprised between 0.05 m and 0.5 m.

(10) The end carriage 10 includes means 20 for circulating air in the conduit 18. The means for circulating air 20 for example include at least one fan 22.

(11) Preferably, the means for circulating air 20 are reversible, between a first configuration in which the air flow is generated from the lower housing 14 towards the first end 10A of the end carriage 10 (this first configuration being illustrated in the FIGURE), and a second configuration in which the air flow is generated from the first end 10A of the end carriage 10 towards the lower housing 14.

(12) Thus, in the first configuration, the conduit 18 expels air at the first end 10A, and in the second configuration, the conduit 18 sucks up air at the first end 10A.

(13) In this case, the fan 22 is a bidirectional fan.

(14) According to one alternative, the means for circulating air 20 are only capable of generating an air flow in the conduit 18, from the lower housing 14 to the first end 10A of the end carriage 10.

(15) According to another alternative, the means for circulating air 20 are only capable of generating an air flow in the conduit 18, from the first end 10A of the carriage towards the lower housing 14.

(16) However, the embodiment in which the means for circulating air 20 may assume the first and second configurations is preferred, since in this case, the configuration may be selected according to the operating conditions of the railway vehicle.

(17) The operating conditions of the railway vehicle comprise, for example, the speed of the railway vehicle, the temperature outside the railway vehicle, the orientation of the wind in the outer surroundings of the train.

(18) Alternatively, the means for circulating air 20 are configured for assuming the first and second configurations depending on the direction of circulation of the railway vehicle.

(19) In this alternative, when the first end 10A is at the front of the railway vehicle, the means for circulating air 20 may be in the second configuration, sucking up air from the first end 10A of the carriage towards the lower housing 14, and when the first end 10A is at the rear of the railway vehicle, the means for circulating air 20 may be in the first configuration, expelling air through the first end 10A.

(20) This suction or expulsion of air at the first end 10A has the effect of modifying the behavior of the air at the front and/or at the rear of the railway vehicle, then reducing the drag effect.

(21) Advantageously, the means for circulating air 20 include means for varying the velocity of a generated air flow, according to a speed of displacement of the end carriage 10. The speed of the air flow depends on the speed of rotation of the fan 22, so that the variation means act on this fan 22.

(22) The speed of the air flow is thereby adapted to the speed of displacement of the carriage 10, in order to optimize the reduction of the drag.

(23) Advantageously, the speed of the air flow is modified in real time, depending on the instantaneous speed of the end carriage 10. For this purpose, automation may be provided by an active control feedback loop, of the type known per se.

(24) The present invention gives the possibility, by acting on the air flows at the front and/or at the rear of the railway vehicle, of reducing the drag of this railway vehicle.

(25) It will be noted that the invention is not limited to the embodiment described earlier, but may have diverse additional alternatives.