FR2974052A1 - Mechanical operating device for changing position of elastic switch/swing nose to define path of railway vehicle, has internal linkage extending below and on two sides of rail for connecting actuator to fasteners to move switch to actuator - Google Patents

Abstract

The device (1) has rails (7) fixed to a hollow cross-piece (6) of a switch operating module (5). The module comprises an internal rod linkage (8) that is arranged in an inner volume of the cross-piece and extends below and on both sides of each rail for connecting a switching actuator (2) i.e. motor, to fasteners (3) to move an elastic switch (4) to the actuator. The module and another switch operating module are separated from each other by a standard cross-piece (9). A mechanical connection unit (10) connects the actuator to the linkage. The actuator directly acts on the connection unit.

Description

DESCRIPTION

The field of the present invention is that of operating devices for switching or heart moving point, and more particularly to a device for changing the position of the elastic needles.

In this field, there is known from US 1,989,128 a maneuvering device in which the elastic needles are fixed to one another by a spacer linkage located between two sleepers placed on the ground. This spreader linkage is actuated by a return linkage from an actuating means in the form of a lever to be manipulated.

The disadvantage of such an operating device is that the spreader linkage extending from one rail to the other is positioned between two successive crosspieces, and must be dismounted during the stuffing operation which consists in tamping the support of the sleepers. WO94 / 27853 discloses, meanwhile, a means for switching the elastic needles in which the spreader linkage is located above the cross. This device has the disadvantage of being of relatively complex design, because the parts arranged between the rails perform other functions than simply transmitting a movement, including locking in position. In addition, in this type of device, each needle actuating module, taking substantially the form of a cross member, must incorporate an actuator such as a motor. Finally, FR 2 870 814 discloses a cross member in which there is a set of elements involved in the switching of the elastic needles. This device has the disadvantage of being relatively complex since the needle-handling module integrates the locking function, requiring an actuator for each module, and extending above the surface on which the rails. The present invention aims to overcome at least a part and preferably all these drawbacks and aims to provide a switching device for maneuvering or movable tip heart, that is to say a device changing the position of the elastic needles between two positions each corresponding to a path, this operating device being of simple design, easy to install, not exceeding, at least between the two rails, the space normally assigned to a standard cross member in a -2- direction of vertical observation or even in a direction of observation in the direction of the rails, thus simplifying the mechanized tamping of the ballast or other cross support and thus facilitate maintenance and improve reliability.

For this purpose, the subject of the invention is a switching device or a moving tip core comprising a switching actuator, preferably a single one, such as a motor, and fasteners for an elastic needle. This device is characterized in that it comprises, in addition, at least one needle handling module, comprising, on the one hand, a hollow cross member, to which the rails can be fixed, and, on the other hand, an internal linkage, located essentially in the interior volume of said hollow cross member, extending at least under and on either side of a rail, and participating in connecting the actuator to said fasteners so as to be able to move the needles; elastic thanks to the actuator.

The invention will be better understood, thanks to the following description, which refers to a preferred embodiment, given by way of non-limiting example, and explained with reference to the accompanying diagrammatic drawings, in which: FIG. 1 represents a top view of an operating device according to the invention; - Figure 2 shows a perspective view of a cross member carrying the actuator of the operating device; FIG. 3 shows a perspective view of a crossmember carrying the guide of a mechanical connection means between internal linkages, and FIG. 4 represents a perspective view of a crossmember in which an internal linkage circulates. The invention relates to an operating device 1 for switching or core movable tip, comprising a switching actuator 2, preferably single, such as a motor, and fasteners 3 for elastic needle 4. The operating device 1 one function is to change the position of the elastic needles 4 defining the paths on which will move a track vehicle. The elastic needles 4 are secured, preferably directly, to fasteners 3, the maneuvering device 1 controls the movement. The fasteners 3 are, for example, plates screwed to the elastic needles 4. The movement of the fasteners 3 is the consequence of the movement of the actuator 2, which, as will be described later, is preferably connected to the fasteners 3 by a motion transmission means made of different mechanical parts, including the internal linkage 8 of at least one needle actuating module 5.

According to a first characteristic of the invention, the operating device 1 comprises, in addition, at least one needle actuating module 5, comprising, on the one hand, a hollow cross member 6, to which the rails can be fixed. 7, and, on the other hand, an internal linkage 8, located essentially in the interior volume of said hollow cross member 6, extending at least under and on either side of a rail 7, and participating to connect the actuator 2 to said fasteners 3 so as to be able to move the elastic needles 4 through the actuator 2, which prevents the operating device 1 extends beyond the hollow sleepers 6 observed along a vertical axis . The operating device 1 therefore forms an integrated device for mechanical switching or moving-point core maneuvering. The rails 7 are therefore preferably fixed to the hollow sleepers 6, but also to standard sleepers 9, separating the various hollow sleepers 6. These standard sleepers 9 are all of similar size. The hollow cross member 6 has substantially the same external dimensions as a standard cross member 9, including its height, in the vertical axis, and its depth, in the axis of the rails, which allows in particular a single adjustment for the stuffing. More specifically, the shapes and dimensions of the hollow cross-member 6 are delimited so that the hollow cross-member 6, on the one hand, is not, at least for the part situated between the rails 7, deeper, in the direction of the rail 7, nor higher, in the vertical direction, than the other standard crosspieces 9 of the track, and, on the other hand, presents, identically, at least a part of the functional surfaces of any other standard cross member 9 of the track, such as the horizontal support surface for the rails 7 and / or the horizontal ground support surface. Thanks to this first characteristic, the operating device 1 does not exceed, in the direction of the rails 7 and between them, the volume that would occupy any standard cross member 9, which avoids in particular, at the fasteners 3, having to change the setting of a stuffing machine, since the hollow cross-member 6 can be of substantially equal dimensions to the standard cross-members 9 and that it accommodates, in its internal volume, the internal linkage 8. -4- As the internal linkage 8 passes at least under a rail 7, it is possible to arrange the actuator 2 out of the space between the rails 7, while controlling the movement of the elastic needles 4 which are in this space, without exceeding, in the direction of the rail and possibly also in the vertical direction, the volume that would occupy a standard cross 9. Generally speaking, a linkage, such as the internal linkage 8, consists, for example, in a set of rods, shafts , connecting rods or mobile plates, preferably metal, connected to each other by joints each leaving at least one degree of freedom, such as in translation or rotation. It is thus a means of transmission of movement, with possible transformation. The transmission of the movement of the actuator 2 to the elastic needles 4 is therefore done, inter alia, thanks to the internal linkage 8. The use of a means for transmitting the movement of the actuator 2 in the form of a internal linkage 8 at the hollow cross member 6 also greatly reduces the complexity of the operating device 1, including the complexity of the transmission of the movement of the actuator 2. As shown in Figure 4, the internal linkage 8 is essentially in a simple double-bent tube near its ends, which extends into the hollow cross-member 6, passing at least under a rail 7, and which moves substantially horizontally and perpendicularly to the rails 7. The double elbows located near the ends allow the latter to open vertically above the hollow beam 6, on either side of one of the two rails 7. The ends are connected, direct or not, to the actuator 2, for one of them, and the fasteners 3, for the other. According to an additional possible characteristic allowing, among other things, to distribute in different places the deformation imposed on the elastic needles 4 while using a single actuator 2, the operating device 1 comprises, on the one hand, at least two actuating modules of needles 5 separated by at least one standard cross member 9, and, on the other hand, a mechanical connection means 10 connecting the actuator 2 to the internal linkages 8 of the various needle actuating modules 5 and transferring the movement of said actuator 2 to the internal linkage 8 of each needle handling module 5. The mechanical connection means 10 thus synchronizes the movements of at least two internal linkages 8. Preferably, in the illustrated embodiment and according to a characteristic enabling reduce the complexity of the operating device 1, the mechanical connection means 10 consists of a linkage, the operating device 1 comprising, e n addition, at least one guide 11 for said linkage, this guide 11 may, for example, be arranged at a standard cross member 9 located between two needle actuating modules 5 or at another hollow crossbar 6 as will be described later. The linkage forming the mechanical connection means 10 thus extends substantially in the direction of the rails 7, since the needle actuating modules 5 are distributed in the direction of the rails 7, and participate in transmitting the movement of the actuator 2 to the internal linkages 8 of the different needle actuating modules 5. Preferably, the internal linkage 8 is not part of the mechanical connection means 10, the movement of the internal linkage 8 is therefore not used to set other linkages in motion internal 8 located downstream in the succession of parts moved under the effect of the single actuator 2, which avoids the repercussion, on other internal linkages 8, a possible defect in a linkage internal 8 which should put them in motion.

According to another possible additional feature, the at least one needle-handling module 5 further comprises, on the one hand, a spacer rod 11, carrying two fasteners 3 each disposed at one end of said spacer rod. 11, this spreading rod 11 being disposed above the hollow cross member 6, and, secondly, a base 12 fixed both to the spacer rod 11 and to the internal linkage 8, thereby allowing to transfer the movement of the internal linkage 8 to the fasteners 3 and thus to the elastic needles 4. This characteristic makes it possible, among other things, to simply and easily connect the rails 7 to the internal linkage 8, and thus to the needle actuating module. 5. Indeed, to clear space above the hollow cross member 6 of the needle handling module 5, it is then sufficient to unhook, for example, on the one hand, the base 12 of the internal linkage 8 , and, on the other hand, the ra 3. In addition, if the attachment of the base 12 to the internal linkage 8 is in the interior of the hollow cross member 6, remove the base 12, the spacer rod 11 and the fasteners 3 allows to completely free the space above the hollow cross member 6. In this case, all the crosspieces, both the hollow sleepers 6 of the needle-actuating modules 5 and the standard cross-members 9, can present the same height, in the vertical direction, and the same depth, in the direction of the rail, which allows in particular to avoid, in the switching zone, a change in the setting of the stuffing machine.

According to an additional possible feature, to prevent the operating device 1 requires too many parts, the actuator 2 acts directly on the or a needle actuating module 5, that is to say on one of its movable parts, especially on the internal linkage 8. As shown in Figure 2, the actuator 2, in the form of a motor, creates, by an eccentric effect around the axis of rotation of its shaft. output, a translational movement moving the internal linkage 8 of the needle handling module 5 on which it acts. In this embodiment, comprising more than two needle actuating modules 5 and a mechanical connection means 10, the bent tube forming the internal linkage 8 of the needle handling module on which the actuator 2 is connected is connected, near one end of said tube, on the one hand, to the actuator 2, and on the other hand, to a rod 14 belonging to the mechanical connection means 10 and putting it in motion.

As an alternative to the previous characteristic, the actuator 2 acts directly on the mechanical connection means 10, which makes it possible in particular to install the actuator 2 at a different place than at a needle actuating module. 5. In some embodiments, the operating device 1 comprises at least two successive needle actuating modules 5, separated by standard cross members 9 to which the rails 7 are fixed, the actuator 2 consisting of a motor and acting directly on the internal linkage 8 of a needle actuating module 5, the mechanical connecting means 10 taking essentially the form of a linkage comprising referrals 13, each being formed, on the one hand, of an extension 15 of which the movement is possibly limited by a guide 11, and, on the other hand, two connecting rods 14, in particular in the form of a square transforming by pivoting a translation substantially parallel to the rails 7 in a translation which is substantially perpendicular, namely a first rod 14 pivotally mounted at the hollow cross member 6 of a first needle actuating module 5 and fixed to its internal linkage 8 and to one end of the extension 15, and a second rod 14 -7- pivotally mounted at the hollow cross member 6 of a second needle actuating module 5 and fixed to the internal linkage 8 of the latter as well as to the other end of the extension 15. According to an additional possible feature making it possible in particular to reduce the number of different parts used to produce the operating device 1, the at least one needle-handling module 5 also comprises a base located at one or other of the ends of its hollow cross member 6, in particular in the form of an insert, this base taking in particular the form of a trunk 16 adapted to accommodate a connecting rod 14 connecting the actuator 2 to the internal linkage 8. Indeed, this This characteristic head makes it possible to use hollow sleepers 6 of identical design to produce, on the one hand, the needle-handling module 5 on which the actuator 2 acts, as shown in FIG. 2, and on the other hand , the other needle actuating modules 5, as shown in FIG. 4.

The connecting rod 14 connected to the internal linkage 8 is pivotally mounted, thanks to a support 18 situated on a platinum-shaped base 17, mounted at one end of the hollow cross-member 6, or, preferably, mounted in the extension, or at least The walls of the hollow cross-member 6 themselves can be deformed so as to create the plate 17 serving as a base for the support 18. Finally, according to yet another additional feature possible allowing, in particular, only one type of crossbar for an operating device 1 comprising several needle actuating modules 5, the guide 11 is carried by a base in the form of plate 17 located at one or other of the ends a hollow cross-member 6, in particular a hollow cross-member 6 that does not belong to any needle-handling module 5. It is therefore possible to position the trunk 16 belonging to the needle-handling module 5 on which the actuator 2, on one side of the pair of rails 7, and, using essentially the same components, to provide, on the same or different side of the pair of rails 7, on the one hand, the support 18 for the pivoting a rod 14 of a return 13, and secondly the base carrying the guide 11. The actuator 2 can be placed either on the same side or on the other side of the connecting means mechanical 10 relative to the pair of rails 7, without requiring the redesign of the operating device 1. -8- Thus, thanks to the invention, it is possible to provide a maneuvering device: - of simple design, particularly thanks to the use of linkage to transmit the movement of an actuator; - Easy to install, especially thanks to the fact that the height of the hollow crossbar 6, that is to say the distance between the support surface of the rails and the bearing surface on the ground, is the same as the height of standard sleepers; - not exceeding, at least between the two rails, the space normally allocated to a standard cross member in a vertical observation direction, or even in a direction of observation in the direction of the rails, thus making it possible to simplify the mechanized stuffing ballast or other cross support and thus facilitate maintenance and improve reliability, and through the integration, in the interior volume of at least one hollow cross member, the portion of this linkage extending between the two rails. A device according to the invention reveals the following advantages: reduction of installation time and adjustment of the maneuver during the installation of the switch and during maintenance operations, improvement of the quality of the ballast stuffing, reduction of needs maintenance jamming and duration of stuffing operations, preservation of the switch and its equipment, reduction of the range of parts for the different possible configurations and improvement of the quality of the track and passenger comfort.

Of course, the invention is not limited to the embodiment described and shown in the accompanying drawings. Modifications are possible, in particular from the point of view of the constitution of the various elements, the combination of the various characteristics described above, or by substitution of technical equivalents, without departing from the scope of protection of the invention.

Claims (9)

REVENDICATIONS1. An operating device (1) for a switch or a moving tip core, comprising a switching actuator (2), preferably single, such as a motor, and fasteners (3) for an elastic needle (4), characterized in that it further comprises at least one needle-handling module (5), comprising, on the one hand, a hollow cross-member (6) to which the rails (7) can be attached, and on the other hand , an internal linkage (8), located essentially in the interior of said hollow cross member (6), extending at least under and on either side of a rail (7), and participating in connecting the actuator (2) to said fasteners (3) so that the elastic needles (4) can be displaced by the actuator (2). 2. Maneuvering device (1) according to claim 1, characterized in that it comprises, on the one hand, at least two needle actuating modules (5) separated by at least one standard cross member (9), and on the other hand, a mechanical connection means (10) connecting the actuator (2) to the internal linkages (8) of the different needle actuating modules (5) and transferring the movement of said actuator (2) to the linkage internal (8) of each needle actuating module (5). 3. Maneuvering device (1) according to any one of claims 1 or 2, characterized in that the at least one needle actuating module (5) further comprises, on the one hand, a rod of spacing (11), carrying two fasteners (3) each disposed at one end of said spacer rod (11), said spacer rod (11) being disposed above the hollow cross member (6), and, on the other hand, a base (12) fastened to both the spacer rod (11) and the internal linkage (8), thereby transferring the movement of the internal linkage (8) to the fasteners (3) and thus with elastic needles (4). 4. Maneuvering device (1) according to any one of claims 1 to 3, characterized in that the actuator (2) acts directly on the or a needle actuating module (5), that is to say say on one of its moving parts, in particular on the internal linkage (8). 5. Maneuvering device (1) according to any one of claims 2 or 3, characterized in that the actuator (2) acts directly on the mechanical connection means (10). 6. Maneuvering device (1) according to any one of claims 2 to 5, characterized in that the mechanical connecting means (10) consists of a linkage, the operating device (1) further comprising at least a guide (11) for said linkage, this guide (11) can, for example, be arranged at a standard cross member (9) between two needle actuating modules (5). 7. Maneuvering device (1) according to any one of claims 2 to 6, characterized in that it comprises at least two successive actuating modules of needles (5), separated by standard crosspieces (9) to which the rails (7) are fixed, the actuator (2) consisting of a motor and acting directly on the internal linkage (8) of a needle actuating module (5), the mechanical connecting means (10) taking essentially the form of a linkage comprising referrals (13), each being formed, on the one hand, of an extension (15) whose movement is optionally limited by a guide (11), and, on the other hand, of two connecting rods (14), in particular in the form of a square transforming by pivoting a translation substantially parallel to the rails (7) in a translation which is substantially perpendicular to them, namely a first connecting rod (14) pivotally mounted at the cross member hollow (6) of a first needle operation module (5) and attached to its sorting internal frame (8) and at one end of the extension (15), and a second connecting rod (14) pivotally mounted at the hollow cross member (6) of a second needle actuating module (5). ) and fixed to the internal linkage (8) of the latter as well as to the other end of the extension (15). 8. Operating device (1) according to any one of claims 1 to 7, characterized in that the at least one needle actuating module (5) also comprises a base located at one or other of the ends of its hollow crossbar (6), in particular in the form of an insert, this base taking in particular the form of a trunk (16) adapted to receive a connecting rod (14) connecting the actuator (2) to the linkage internal (8). 9. Maneuvering device (1) according to claim 6 and any one of claims 7 or 8, characterized in that the guide (11) is carried by a platinum base (17) located at one or the other ends of a hollow cross member (6), in particular a hollow cross member (6) not belonging to any needle actuating module (5).