Patent Application
20210354736
The present invention relates to a railway vehicle compartment of the type comprising:
The invention is particularly applicable to compartments located in rail vehicles and in particular compartments protecting door opening systems.
Compartments situated in railway vehicles are generally located in passenger areas. In such areas, it is necessary to ensure that passengers have a means of securing themselves in relation to the vehicle.
To this end, grab bars are provided in the vehicle in order to offer passengers a means of stabilizing themselves if necessary. Such grab bars are particularly useful near the vehicle doors, in order to facilitate entry or exit of the vehicle. However, the door mechanism is located near the doors in an area that may be suitable for the installation of grab bars.
Integrating a grab bar into compartment covers is already known, and in particular compartment covers comprising a door opening system in order to improve user comfort while protecting the door opening system.
However, such a railway vehicle compartment is complex to mount and difficult to open.
An aim of the invention is to provide a simplified and easy-to-open railway vehicle compartment.
To this end, it is an object of the invention to provide a railway vehicle compartment as stated, in which the cover is rotatable about an axis of the bar between its open and closed position, the bar forming a hinge of the hinge and in that,
an upper region and a lower region of the bar extend into the interior volume, the bar passing through the cover between its lower region and its central region and between its upper region and its central region.
According other advantageous aspects of the invention, the rail vehicle compartment may comprise one or more of the following features, taken alone or in any technically possible combination:
The invention further relates to an assembly comprising:
According to other aspects of the invention, the assembly may comprise one or more of the following features, taken alone or in any technically possible combination:
the bar being held stationary relative to the structural element when the centering pin is inserted and the locking member is secured.
The invention further relates to a rail vehicle comprising an assembly as stated.
The invention also relates to a method for mounting an assembly as stated, comprising the following steps:
The invention will be better understood from the following description, given only as a non-limiting example and made with reference to the following figures, among which:
In the following description, a direct orthonormal basis (X, Y, Z) is considered. The elevation direction Z is defined according to the height of the vehicle and corresponds for example to the vertical direction when the vehicle is on a horizontal track. The longitudinal direction X corresponds to the front-rear direction of the vehicle and the transverse direction Y corresponds to the direction along the width of the vehicle.
The terms “upper” and “lower” as well as “high” and “low” are defined in relation to the elevation direction Z. The terms “left” and “right” are defined in relation to the transverse direction Y in the normal direction of travel of the vehicle.
A rail vehicle 1 provided with a compartment 2 according to the invention is illustrated in
With reference to
The compartment 2 defines an interior volume 16 in which electrical equipment of the rail vehicle, such as a door opening mechanism 18, is at least partially arranged. The door opening mechanism 18 is for example adapted to open and close the door 14 of the rail vehicle 1.
The compartment 2 comprises a hinge 20, the hinge 20 comprising a wing 21. The compartment 2 comprises a cover 22 attached to the wing 21. More particularly, the cover 22 forms the wing 21 of the hinge 20. The cover 22 is movable between an open position, in which the cover 22 is offset from the interior volume 16, and a closed position, in which the cover 22 covers the interior volume 16 and at least partially delimits the interior volume 16. The hinge 20 comprises a pin 23 formed by a bar 24 of a longitudinal axis A-A extending partially into the interior volume 16 and passing through the cover 22. The hinge comprises a knuckle 26 formed by a lower support 27 and an upper support 28, the knuckle 26 supporting the bar 24.
The compartment 2 comprises panels 31 fitted in the passenger compartment 4 of the vehicle 1 and defining the interior volume 16.
An assembly 29 comprises a structural element 30 of the vehicle and the compartment 2, the lower support 27 and the upper support 28 being attached to the structural element 30.
The cover 22 comprises a non-coplanar main panel 32 and secondary panel 34 connected by a lower curved region 36 and by an upper curved region 37. In a particular embodiment, the main panel 32 and the secondary panel 34 are perpendicular.
The cover 22 comprises a cavity wall 38 forming a cavity 39 extending between the main panel 32 and the secondary panel 34 and connecting the main panel 32 to the secondary panel 34. The cavity wall 38 extends between the lower curved region 36 and the upper curved region 37 and connects the lower curved region 36 to the upper curved region 37. The cavity 39 extends primarily along the longitudinal axis A-A.
The cover 22 is rotatable about the longitudinal axis A-A between the open position and the closed position. The hinge 20 defines the path of the cover 22 between the open position and the closed position.
The open position corresponds to the position of the cover 22 in which the cover 22 is offset from the interior volume 16 and in which the door opening mechanism 18 is accessible from outside the interior volume 16.
The closed position corresponds to the position of the cover 22 in which the cover 22 covers the interior volume 16 and in which the door opening mechanism 18 is inaccessible and hidden under the cover 22 and the panel assembly 31.
The cover 22 is for example molded in one piece.
The bar 24 extends between the floor 10 and the ceiling 12 in a substantially vertical direction.
The bar 24 is fixed immovable in translation in relation to the passenger compartment 4.
The bar 24 comprises a lower region 40 and an upper region 42 connected by a central region 44, the lower region 40, the upper region 42 and the central region 44 being continuous with each other.
The lower region 40 and the upper region 42 extend into the interior volume 16. Specifically, the lower region 40 extends into the recess formed by the lower curved region 36 and the upper region 42 extends into the recess formed by the upper curved region 37.
The central region 44 extends out of the interior volume 16. More particularly, the central region extends into the cavity 39.
The bar 24 extends through the cover 22 through the cavity wall 38, into a lower region of the cavity 39 and into an upper region of the cavity 39.
The bar 24 extends through the cover 22 between its lower region 40 and its central region 44 and between its upper region 42 and its central region 44. In other words, the central region 44 of the bar is the region extending between the lower region of the cavity 39 and the upper region of the cavity 39 where the bar passes through the cover 22.
The central region 44 of the bar 24 is offset from the cavity wall 38 by, for example, at least 40 mm. The person skilled in the art will understand here that a central portion of the central region 44 extends at least 40 mm from the cavity wall 38.
The length of the bar 24 is for example between 1 m and 3 m.
The diameter of the bar 24 is for example between 20 mm and 80 mm, preferably between 25 mm and 50 mm.
The bar 24 is for example a metal bar.
The bar 24 is a grip bar intended to be grasped by a user or to support the weight of a user. In particular, the bar 24 is adapted to support a user using the bar to maintain balance. In particular, the central region 44 is intended to be grasped by the passenger, with the offset between the central region and the cavity wall 38 being adapted to allow a users hand to pass through.
The bar 24 forms a pin of the hinge 20, the cover being rotatable about the longitudinal axis A-A of the bar 24.
The lower support 27 is attached to the vehicle structural element 30. The lower support 27 holds the lower region of the bar 40 fixed and translationally immovable in the frame 4.
The upper support 28 is attached to the vehicle structural element 30. The upper support 28 holds the upper region of the bar 42 fixed and immovable translationally in the chassis 4.
According to a first embodiment, the lower support 27 and the upper support 28 are embedded in the bar 24 and all degrees of freedom of the bar are locked relative to the vehicle structural element 30 and thus relative to the rest of the passenger compartment 4.
In this first embodiment, the lower support 27 and the upper support 28 form a pin of the hinge 20 and are adapted to keep the bar 24 immovable in relation to the vehicle structural element. The cover 22 is rotatable about the axis A-A relative to the bar 24 and thus relative to the vehicle structural element.
The upper support 28 then comprises a receiving region 48 adapted to receive the bar 24. The receiving region 48 is a threaded region.
The bar 24 comprises a threaded section 50 at the end of the upper region 42 opposite the central region 44. The bar 24 comprises a through opening 52, having an axis perpendicular to the longitudinal axis A-A, at the end of the lower region 40 opposite the central region 44. The end of the upper region 42 is threaded into the upper support 28. In particular, the threaded section 50 is screwed into the receiving region 48.
The lower support 27 comprises a connection element 54 attached to the vehicle structural element 30 and a removable assembly 56.
The removable assembly 56 comprises a centering pin 58 and a locking member 60.
The centering pin 58 is adapted to be inserted into the connection element 54. The centering pin 54 is adapted to center the bar 24 in the connection element 54. The centering pin 58 comprises, for example, a head 62 adapted to be inserted into a longitudinal hole of the bar 24 extending along the longitudinal axis A-A. The head 62 is, for example, cylindrical, and the outer diameter of the head 62 is, for example, substantially equal to the inner diameter of the longitudinal hole of the bar 24.
The locking member 60 comprises a removable portion 64 and at least one fastening means 66.
The locking member 60 is adapted to be attached to the connection element 54 and to block rotation of the bar 24 about the longitudinal axis A-A.
The locking member 60, when attached to the connection element 54, and the centering pin, when inserted into the connection element 54, hold the bar 24 stationary relative to the structural element 30.
The removable portion 64 is, for example, in the form of a tube segment and forms, together with the connection element 54, a tube accommodating the bar 24. The removable portion 64 has, for example, at least one receiving opening for each fastening means 66.
The fastening means 66 passes through the removable portion through its receiving opening and through the bar 24 by the through opening 52. In particular, the fastening means 66 is attached to the connection element 54 and secures the bar 24 and the removable portion 64 to the fastening element. Each fastening means 66 is, for example, a screw screwed into the connection element, clamping the removable portion 64 around the bar 24.
A second embodiment differs from the first embodiment only in the following. Analogous elements have the same references.
According to the second embodiment, the lower support 27 and the upper support 28 hold the bar stationary and immovable in translation while guiding the bar in rotation about its longitudinal axis A-A. The bar 24 can thus be rotatable about its longitudinal axis A-A relative to the structural element 30 and relative to the rest of the passenger compartment 4.
In this second embodiment, the lower support 27 and the upper support 28 form a pin of the hinge 20 and are adapted to keep the bar 24 translationally immovable in relation to the vehicle structural element 30, the cover 22 being rotationally immovable in relation to the bar 24, for example. The cover 22 and the bar 24 are then rotatable about the axis A-A relative to the lower support 27 and the upper support 28, for example, and thus relative to the structural element 30.
A method of mounting an assembly comprising a vehicle structural element 30 and a railway vehicle compartment 2 according to the invention will now be described. In particular, the method described hereinafter is the method of mounting an assembly comprising a vehicle structural element 30 according to the first embodiment in which the cover 22 is rotatable relative to the bar 24 about its longitudinal axis A-A.
In a first step, the bar 24 is attached to the cover. In particular, the bar is inserted through the cover so that the lower region 40 and the upper region 42 extend into the interior volume 16 and so that the central region 44 extends into the cavity 39. The cover 22 is, for example, mounted on bearings integral with the bar 24.
In a second step, the lower support 27 and the connection element 54 are attached to the vehicle structural element 30. For example, the lower support 27 and the connection element 54 are attached to the side wall 6 and the transverse wall 8.
In a third step, the bar equipped with the cover 22 is screwed into the upper support 28. In particular, the threaded section 50 is screwed into the receiving region 48.
In a fourth step, the centering pin 58 is inserted into the connection element 54. In particular, the centering pin 58 is inserted into the space formed between the connection element 54 and the bar 24 screwed into the upper support 28.
In a fifth step, the bar 24 is partially unscrewed from the upper support 28. The centering pin 58 then interacts with the connection element 54 and the bar 24 to center the bar 24 in the connection element 54. In particular, the bar 24 is centered by the centering pin 58 which is inserted into the connection element 54.
In a sixth step, the removable portion 64 is installed around the bar 24 and interacts with the connection element 54 to form a tube for receiving the bar 24. At least one fastening means is then attached to the connection element 54 through the portion receiving of the removable portion 64 and the through opening 52, thereby blocking rotation of the bar 24 about the longitudinal axis A-A, and similarly blocking translation of the bar 24 along the longitudinal axis A-A by preventing the screwing/unscrewing of the bar 24 in relation to the upper support 28.
The use of the cover 22 movable around the axis A-A of the bar 24, and more particularly of the compartment in which the bar forms the hinge pin is particularly advantageous since this allows a simplified and more economic compartment to be obtained.
The bar 24 of the cover 22, acting both as a hinge pin 23 and as a grip bar, is also particularly advantageous and makes it possible to simplify the compartment 2 even further. This simplified design also makes it possible to assemble and disassemble the compartment more quickly, facilitating maintenance operations.
The lower support 27 and the upper support 28 directly support the bar 24 and thus ensure improved rigidity of the bar 24 in relation to the passenger compartment 4.
The operation of so-called “first level” maintenance, i.e., visual inspection of equipment requiring frequent maintenance operations, such as a door opening mechanism 18. This type of maintenance operation is the most frequent type of operation, and is improved by such a railway vehicle compartment 2.
The operation of so-called “second level” maintenance, i.e., the replacement of parts of the door opening mechanism 18 is done by disassembling the cover 22. Second level maintenance operations are infrequent compared to first level maintenance operations and the rail vehicle compartment 2 according to the invention therefore simplifies maintenance operations taken as a whole.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20305502.5 | May 2020 | EP | regional |
