EP1883567A1

EP1883567A1 - Device for examining the end position of displaceable parts of a rail switch

Info

Publication number: EP1883567A1
Application number: EP06721248A
Authority: EP
Inventors: Herbert Achleitner; Martin Meieregger; Wolfgang Oberhoffner
Original assignee: Voestalpine VAE GmbH; Voestalpine Weichensysteme GmbH
Current assignee: Voestalpine Signaling Austria GmbH
Priority date: 2005-05-18
Filing date: 2006-05-10
Publication date: 2008-02-06
Anticipated expiration: 2026-05-10
Also published as: CN101175661B; NO20076501L; EP1883567B1; DK1883567T3; US20090045297A1; AU2006246962B2; WO2006122338A1; ES2395043T3; ZA200709609B; TW200709975A; RU2007147001A; CA2607941C; SI1883567T1; RU2381124C2; KR20080015451A; AT502042A4; CN101175661A; PL1883567T3; TWI306820B; BRPI0610822A2

Abstract

The invention relates to a device for examining the end position of displaceable parts of a rail switch, wherein at least one separate end position examining device (5, 6) is associated with each displaceable switch part (3, 4). Said end position examining device (5, 6) comprises a rod (8) and an examining housing (9) wherein the rod (8) is guided and wherein at least one end position switch (5, 6) which is used to detect both end positions of the displaceable switch part (3, 4) is arranged. According to the invention, the rod (8) comprises, in the region immersed in the housing (9) or the housing (9) at least two switching edges which are arranged at a distance from each other in the axial direction and which is used to actuate the at least one end position switch (5, 6). At least of the switching edges can be adjusted in the axial direction in relation to the other switching edge and is arranged in a fixed manner in the respective position.

Description

- i -

Endlaqenprüfunq of movable. Splitting a rail switch

The invention relates to a device for end position testing of moving parts of a rail switch, wherein each movable switch part is assigned at least one separate Endlagenprüfeinrichtung, the Endlagenprüf- device comprises a rod and a Prüfergehäuse, in which the rod is inserted- and in which at least a limit switch for detecting the two end positions of the movable switch member is arranged.

Adjustments for movable switch parts, such as in particular tongue rails or movable frogs, which are provided with a Endlangprüfeinrichtung are known as belonging to the prior art generally. In the known adjusting devices, the mechanical changeover of the movable switch part is effected by means of an electric or hydraulic point drive, wherein in addition to the points drive a separate or integrated in this closure device and in any case a separate Endlagenprüfeinrichtung is provided. Such Endlageprüfeinrichtungen serve to mechanically scan the current state of the points in turnouts and to generate a test signal on the basis of which it can be reliably determined whether the switch was changed over correctly and whether the adjacent and the outlying tongue in their respective correct End position are located. The Endlagenprüfeinrichtung has a Prüfergestänge, which extends essentially transversely to the rail longitudinal direction and which is displaced when changing the switch in the longitudinal direction of the linkage. The positions of the tester bars are detected by means of electromechanical transducers, For example, in the form of limit switches or Zungenprüf- contacts, which are arranged in a mostly laterally of the switch mounted on a threshold housing. Lifting the embodiment as a separate device to the end position detectors but was ^"integrated already in a common housing with the adjusting drive. Another embodiment is known from DE 29917829 Ul, in which a continuous check rod is provided, the two rod parts telescopically with the interposition of a spring element The limit switches are in this case designed as switching fingers which are rigidly connected to the tester rod and interact with proximity switches, Alternatively, solutions are known in which grooves are formed on the tester rod, into which switching levers engage and in this way As an example, the US 5,669,587 is cited.

In the above-described Endlagenprüfeinrichtungen two tongue rails of the switch is assigned a common Prüferstange, so that the end positions of both tongue rails can be checked with a single device. There are also already Endlagenprüfeinrichtungen become known in which each tongue rail a separate end associated lagenprüfeinrichtung, so that by the complete mechanical decoupling of the two in each case one tongue rail associated testing equipment a higher -mechanical ^'security is achieved. For this purpose, for example, refer to DE 1963464 U. In this device is at each switch blade each a separate shift rod under the influence of a compression spring, wherein depending on the switching position arranged in the housing limit switch is actuated. By the resilient contact pressure of Rod at the switch blade is a play-free transmission of the movement of the switch blade on the test device achieved, so that a precise detection of the respective end positions is possible. However, it is disadvantageous in such a device that ^" an adaptation of Endlagenprüf- device to different Umstellhübe is possible only with considerable difficulty, namely only in that the Prüfergehäuse is opened and the position of the actuator for the limit switches relative to the Endlägenschaltern will be changed.

In modern railroad switches, it is necessary to arrange a plurality of end position test devices along the longitudinal direction of the switch in order to be able to check the correct intake of the respective end positions at a plurality of points. In this way, breakage of the rail switch or buckling of the same or other malfunctions can be better detected. If a plurality of Endlageprüf- devices are to be arranged along the rail switch, each tester must be adapted to a different Umstellhub, with a lesser Umstellhub is observed near the clamping of the tongue rail than at the free end of the tongue rail, where the maximum Umstellhub occurs.

The present invention aims to provide a Endlagenprüfeinrichtung, in which a simple way to adapt to the different displacement paths of the movable switch parts is possible without complicated conversion work is required, and in particular without an opening of the Prüfergehäuses is necessary. The adaptation to the different displacement paths should also in the installed state of Endlagenprüfeinrichtung be possible to make, for example, a subsequent adaptation to the resulting wear and tear during operation changes the Umstellhubes. ^•

To solve this problem, the device according to the invention is substantially designed such that the rod has in its immersed in the housing portion or the housing at least two axially spaced apart switching edges for the actuation of the at least one limit switch, wherein at least one of the switching edges relative to the other switching edge is adjustable in the axial direction and is arranged fixable in the respective position. The fact that now at least two axially spaced apart switching edges are provided for the actuation of the end position or the switch, the possibility is created by changing the axial distance between the two switching edges take an adaptation to different displacement paths of the tongue rail vorzu-. For this purpose, at least one of the switching edges is arranged relative to the other switching edge in the axial direction and fixed in the respective position. This is particularly advantageous if each tongue rail is assigned a separate Endlagenprüfeinrichtung, so that the adaptation to different adjustment paths for each tongue rail can be made separately. The possibility of the exact setting of the test device means that even slight deviations from the end position cause the end position switch is not actuated, so that a corresponding malfunction at the control point is immediately apparent. A reliable functioning of Endlagenprüfeinrichtung is only guaranteed if proper guidance of the Prüferstange is given in the housing. However, the Endlagenprüfeinrichtung is usually exposed to mechanical stress, for example, by the influence of vibrations, which are transmitted from the tongue rail on the tester, by thermal stresses or bending or torsional moments. It is therefore preferably provided that the housing is designed as a tube with a circular cross-section, in which the rod dips sealingly. Due to the circular cross-section of the housing, the functionality of the Endlagenprüfeinrichtung is not affected by torsional load or in a torsion of the Prüfergestänges, and - in particular the Prüferstange, the sealing completion of the Prüfergehäuses in the area,

C in which the Prüferstange dips into the Prüfergehäuse, is retained by the circular design in any case. In addition, such a design ensures a particularly compact design, so that the limited space in the area of the switch tongue can be taken into account optimally.

In the case of end position testing devices, the rod-shaped component is usually designed as a tester rod which is coupled to the movable soft part and which dips into a stationary or stationary housing, wherein the limit switches are rigidly connected to the stationary housing. Notwithstanding this, according to a preferred embodiment of the present invention, it is provided that the rod is connected to a fixed part of the switch and the tube is coupled to the movable part, which is particularly advantageous if, as it corresponds to a further preferred embodiment , the at least one Limit switch is connected to the rod and can be actuated by the arranged on the inner surface of the tube switching edges. As a result, a particularly compact design is achieved. The switching edges for the operation of the limit switches are thus arranged in this embodiment, the movable housing and cooperate with limit switches, which at the with a stationary part of. Switch connected rod are arranged. In such a configuration, the axial adjustment of the switching flanks provided in the tube for adjusting the distance between the two switching flanks and thus substantially easier to adapt to the respective Umstellhub, wherein it is preferably provided that the Inrienmantel of the tube defined by the switching edges switching grooves are formed. In such Schaitnuten the limit switches can engage upon reaching the respective end position, wherein for adjusting the distance between the switching grooves is preferably provided that at least one of the switching edges is formed on a relative to the pipe in the axial direction adjustable component. The adjustable component can in this case be designed as an inner tube which can be screwed into the tube, so that the switching flank can be adjusted in the axial direction by rotation of the inner tube relative to the housing tube. With such a configuration, the setting of the switching edges and thus the adaptation to the respective Umstellhub be made even with already built Endlagenprüfeinrichtung without having to open the housing ^' , since only the externally accessible housing tube must be rotated relative to the inner tube.

Preferably, the at least one limit switch comprises a spring-loaded plunger or cooperates with a spring-loaded actuating member, which (s) when correctly inserted. Position of the movable switch member engages in the defined by the switching edge switching groove. The spring-loaded plunger or the spring-loaded actuating member ensures that the plunger or the actuating member acts against the enveloping tube, so that a compulsive actuation of the changeover switch always takes place when the tongue rail has not yet reached the required end position. Only when reaching the end position of the spring-loaded plunger or the spring-loaded actuating member engages in the corresponding switching groove, which is arranged on the inner circumference of the enveloping tube. To increase safety, at least two limit switches are preferably provided, wherein each limit switch can be actuated by an associated switching edge. With appropriate interconnection of the two limit switches, reliable control of the correct ingestion of the respective end algae can be achieved.

The coupling of the Endlagenprüfeinrichtung to the movable switch part is preferably carried out in that the tube or the inner tube has a connection point for a connector for coupling to the movable switch part to thereby ensure that the Endlagenprüfeinrichtung only in the direction of Um- Actuating forces are transmitted and the

Endlagenprüfeinrichtung is kept free of other forces, which may be caused for example by Längsverschiebungen, thermal expansions or tilting of the tongue rail, it is preferably provided that the tube is slidably connected in the rail longitudinal direction with the movable switch part. Furthermore, it can be provided that the tube to the movable switch part about an axis parallel to the rail longitudinal axis is pivotally connected. The pivotal mounting can be made using elastic links and / or spherical bearings, so that vibrations of the tongue rails are compensated and not forwarded to the test device. An actuation of the limit switches exclusively due to such vibrations is thus excluded, so that the reliability of the tester can be increased. The tilting moments and the like acting on the movable switch parts during the passage of the switch are likewise taken up by the pivotability of the test device in the joint or in the elastic connecting link.

To check the applicability of the end position tester at different places. the rail switch to improve the training is advantageously further developed such that the rod is connected to a sliding block, which is displaceable in the axial direction relative to a stationary lägerbock. In this way, the entire Endlagenprüfeinrichtung can be adjusted in a direction transverse to the rail longitudinal direction, so that an improved adaptation to the different Umstellhübe succeed. In particular, it is thereby possible to arrange one and the same Endlagenprüfeinrichtung at different points along the switch, which can be adjusted by the axial displacement of the Endlagenprüfeinrichtung the effective length of the Prüfergestänges. The displaceability can be made possible in a simple manner in that the fixed bearing block carries a transverse to the rail longitudinal direction spindle, which cooperates with an internal thread of the sliding block. By rotation of the spindle thus takes place a corresponding stepless axial displacement of Prüfergestänges. The invention will be explained in more detail with reference to an embodiment schematically illustrated in the drawing. 2 shows a detailed view of the determination of the Endlagenprüfeinrichtung to the threshold, Figure 3 shows a detailed view of the coupling of Endlagenprüfeinrichtung to the tongue rail, Figure 4 5 shows a perspective view of a Endlagenprüfeinrichtung, Figure 6 is a sectional view of the Endlagenprüfeinrichtung along the line VI-VI of Figure 4, Figure 7 a, Schnittdars.tellung according to the line VII-VII of Fig.l and Figure 8 is a representation according to Figure 7 in a modified embodiment.

FIG. 1 shows a section of a rail switch with stock rails 1 and 2 as well as tongue rails 3 and 4. The tongue rail 3 is in this case in contact with the stock rail 1, the tongue rail 4 is in storage from the stock rail 2. The tongue rails 3 and 4 are each assigned separate Endlagenprüfeinrichtungen 5 and 6, so that a complete mechanical end coupling of the tongue rails 3 and 4 is reached. The -Endlageprüfeinrichtungen 5 and 6 are each determined via bearing blocks 7 at a threshold 15. The Endlagenprüfeinrichtungen each consist of a rod 8, which dips into a tubular housing 9 sealingly, wherein the tube 9 is coupled via an articulated clevis 10 to the tongue rail 3 and 4 respectively. When switching the switch according to the double arrow 11, the coupled to the tongue rail tube 9 is taken and relative to the rod. 8 shifted, which, as will be explained below, depending on the relative displacement position of the tube 9 to the rod 8 limit switches are actuated. In the detailed illustration according to FIG. 2, the connection of the end position test device to the threshold 15 is shown. With the threshold 15, a bearing block 7 is connected, which carries a spindle 12. The spindle 12 is provided with an external thread, which cooperates with an internal thread in a bore of the sliding block 13, so that by sliding the spindle 12 of the sliding block 13 in the direction of the double arrow 14 can be moved. The connected to the shelf ^"8 end piece 16 is hinged about an axis 17 to the sliding block 13, so that any tilting moments do not occur. The end position detector is transmitted.

In Figure 3, the type of coupling of Endlagenprüfeinrichtung is shown in detail on the movable tongue rail. As can also be seen from the illustration according to FIG. a hinged clevis 10 is provided, which carries a bolt - 18, so that the tube 9 is coupled about an axis 19 pivotally connected to the tongue rail. The fork head 10 surrounds the foot of the tongue rail and is fixed with a screw to the rail web. In this case, a holding plate 20 fixes the position of the end-position testing device in the longitudinal direction of the rail in which the holding plate 20 is supported laterally on the sliding chair 38. This embodiment prevents a longitudinal expansion of the rail from being transmitted to the checking device Furthermore, not visible in the figure vertically aligned slot, whereby the clevis 10 is relieved of vertical forces. Based on the sectional view of Figure 6, the operation of the Endlagenprüfeinrichtung will now be explained in more detail. The rod 8, which is rigidly connected to the end piece 16, carries at its end immersed in the tube two limit position switches 21 and 22. The actuating mechanism for the limit switches consists of two symmetrically arranged to the central axis switch tappets 23 which are resiliently biased against each other and are pressed against the inner jacket 24 of the tube 9 to the outside. At their mutually facing sides, the switching plunger 23 cooperate with a switching cone 25 which acts directly on the actuating plunger 26 of the limit switch. The limit switch is actuated as long as the switch plungers 23 are in the radially inwardly held position, as is the case for the limit switch 21 shown in the figure. In the End ^'in layers switch 22, the switch plunger _27th however, shown in the radially outwardly displaced position and engage in, a shift groove 28, whereby the limit switch 22 is no longer actuated. On the inner circumference of the tube 9, a further shift groove 29 is provided in addition to the shift groove 28, in which the switch plunger 23 of the limit switch 21 can engage with a corresponding change of the switch.

When switching the switch, the coupled to the tongue rail tube 9 and inner tube 31, starting from in the. Drawing shown position shifted in the direction of the arrow 30, whereby it comes to a shift of the switching grooves relative to the limit switches. Here, the switching plunger 27 are pressed against the force of the springs 37 radially inwardly and emerge from the shift groove 28. During the switching operation, therefore, both the actuating tappets 23 of the limit switch 21 and the actuating gungsstößel 27 of the limit switch 22 in the radially inwardly pressed position, so that both limit switches 21 and 22 are actuated. At the. End of the switching operation, the actuating plunger 23 engage in the switching groove 29, whereby the achievement of the correct end position is displayed. An adaptation to the respective Umstellhub now takes place in that the distance between the Schaltnuten 28 and 29 is changed. The smaller the Umstellhub, the greater the distance between the Schaltnuten 28 and 29 must be selected. For axial adjustment of the shift groove 28, this shift groove is formed on a separate component, namely the inner tube 31, which is screwed into the tube 9. By ^• turning the tube -9 relative to the Inήenrόhr 31 is a stepless adjustment of the distance between see the Schaltnüten 28 and 29. The respectively selected Verdrehlage is fixed by means of the lock nut 33. The inner tube 31 has a projecting end portion 32, in the annular groove of the holding plate 20 engages.

From Fig. 7 it is seen that the sealing bearing of the rod 8 in the pipe 9 is achieved by a cap part 34 which is screwed onto the rod facing the end of the tube 9 and corresponding seals 35 carries for the sealing guidance of the rod 8. The rod 8 is further connected to a support member 36 to which the limit switches 21 and 22 are fixed. In the illustration according to FIG. 8, a modified embodiment is shown in which a total of four end-position contact switches are connected to the carrier-type component 36. Here, two switches are provided for each end position, which are each connected by a common actuating mechanism. As a result, greater test safety can be achieved. ■ •

Claims

Claims:

1. A device for end position testing of moving parts of a rail switch, in which each movable switch part (3, 4) is assigned at least one separate end position test device (5, 6), the end position test device (5, 6) being a rod ( 8) and a Prüfergehäuse (9) summarizes, in which the rod (8) is inserted and in which at least one limit switch (21,22) for detecting the two end positions of the movable WeichenteiTs (3,4) is arranged, characterized that the rod (8) (9) plunging region or the housing (9) of the at least having in the in the ^■ housing has at least two spaced apart from each other in the axial direction switching edges for the actuation of a limit switch (21,22), wherein at least one of Switching edges relative to the other switching edge in the axial direction adjustable and is arranged fixed in the respective position.

2. Apparatus according to claim 1, characterized in that the housing is designed as a tube (9) with a circular cross section, in which the rod (8) dips sealingly.

3. Device according to claim 1 or 2, characterized marked, that the rod (8) is connected to a stationary part of the switch and the tube (9) to the movable switch part (3,4) is coupled.

4. Apparatus according to claim 1, 2 or 3, characterized in that the at least one limit switch (21,22) is connected to the rod (8) and actuated by the on the inner casing (24) of the tube (9) arranged switching edges is.

5. Device according to one of claims 1 to 4, characterized in that the rod (8) has a bore for carrying out a wiring for the at least one limit switch (21,22). - ^...

6. Device according to one of claims 1 to 5, characterized in that on the inner casing (24) of the tube (9) defined by the switching edges switching grooves (28,29) are formed.

7. Device according to one of claims 1 to 6, characterized in that at least one of the switching flanks is formed on a relative to the pipe (9) in the axial direction adjustable component.

8. Device according to one of claims 1 to 7, characterized in that the adjustable component as in the tube (9) screwed inner tube (31) is formed.

9. Device according to one of claims 1 to 8, characterized in that the limit switch (21,22) comprises a spring-loaded plunger (26) or with a resiliently loaded actuator (23,27) cooperates, which (s) at the correct end position of movable switch part in the 5 defined by the switching edge switching groove (28,29) engages.

10. Device according to one of claims 1 to 9, characterized in that at least two limit switches 0 (21,22) are provided, each limit switch (21,22) is actuated by an associated switching edge.

11. Device according to one of claims 1 to 10, characterized in that the tube (9) or the inner tube (31) has a connection point for a connecting piece for coupling to the movable ^" soft part (3,4).

12. Device according to one of claims 1 to 11, characterized in that the tube (9) is displaceably connected in the rail longitudinal direction with the movable switch part (3,4).

13 ^". A device according to any one of claims 1 to 12, characterized in that the tube (9) is pivotally connected to the movable switch part (3,4) about an axis extending parallel to the rail longitudinal direction axis (19).

14. Device according to one of claims 1 to 13, characterized in that the rod (8) with a sliding block (13) is connected, which in the axial direction relative to a stationary bearing block (7) is displaceable.

15. Device according to one of claims 1 to 14, characterized in that the rod (8) is pivotally connected to the sliding block (13) about a parallel to the rail longitudinal axis (17).

16. Device according to one of claims 1 to 15, characterized in that the stationary bearing block (7) carries a transverse to the rail longitudinal direction spindle (12) which cooperates with an internal thread of the sliding block (13).