AU2018203788A1 - Switching machine for a railroad - Google Patents

Switching machine for a railroad Download PDF

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Publication number
AU2018203788A1
AU2018203788A1 AU2018203788A AU2018203788A AU2018203788A1 AU 2018203788 A1 AU2018203788 A1 AU 2018203788A1 AU 2018203788 A AU2018203788 A AU 2018203788A AU 2018203788 A AU2018203788 A AU 2018203788A AU 2018203788 A1 AU2018203788 A1 AU 2018203788A1
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AU
Australia
Prior art keywords
bar
detector bar
follower
stop
main body
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
AU2018203788A
Inventor
Kevin Harvey
Alberino PALOZZI
Ronald REFICI
Michael Shaver
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Alstom Transport Technologies SAS
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Alstom Transport Technologies SAS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Alstom Transport Technologies SAS filed Critical Alstom Transport Technologies SAS
Publication of AU2018203788A1 publication Critical patent/AU2018203788A1/en
Abandoned legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L5/00Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
    • B61L5/10Locking mechanisms for points; Means for indicating the setting of points
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L5/00Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
    • B61L5/06Electric devices for operating points or scotch-blocks, e.g. using electromotive driving means
    • B61L5/065Construction of driving mechanism
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L5/00Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
    • B61L5/02Mechanical devices for operating points or scotch-blocks, e.g. local manual control
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L5/00Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
    • B61L5/10Locking mechanisms for points; Means for indicating the setting of points
    • B61L5/102Controlling electrically
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L5/00Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
    • B61L5/10Locking mechanisms for points; Means for indicating the setting of points
    • B61L5/107Locking mechanisms for points; Means for indicating the setting of points electrical control of points position

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Train Traffic Observation, Control, And Security (AREA)

Abstract

Switching machine for a railroad This switching machine (20) comprises a frame (40), a point detector bar (26), an indication contact assembly (62), at least one detector bar follower (64A, 64B) able to act on the indication contact assembly (62) depending on the position of the point detector bar (26) relatively to the frame (40), an inhibiting element (66) jointly movable with the detector bar follower (64A, 64B), and a cam bar (50) translatable relatively to the frame (40) between an unlock position and a lock position. The cam bar (50) comprises a tongue portion (56) which is able to be in contact with a stop (96) of the inhibiting element (66) when the cam bar (50) is in its unlock position and to be away from said stop (96) when the cam bar (50) is in its lock position. The inhibiting element (66) comprises a main body (84) relatively to which the stop (96) is vertically translatable between an active position, in which the stop (96) is in contact with the tongue portion (56) when the cam bar (50) is in the unlock position, and a passive position, in which the stop (96) is away from the tongue portion (56) of the cam bar (50) when the cam bar (50) is in the unlock position. Figure 4 40, 24 32 x Y, F IG.1

Description

ORIGINAL COMPLETE SPECIFICATION STANDARD PATENT
Invention Title
Switching machine for a railroad
The following statement is a full description of this invention, including the best method of performing it known to me/us:1
2018203788 30 May 2018
The present invention concerns a switching machine for switching the position of railway tracks, the switching machine being of the type comprising:
- a frame, intended to be fixed relatively to a pair of stock rails of a railroad switch,
- a throw bar translatable relatively to the frame along a transverse direction to throw a pair of inner rails of the railroad switch, located between the stock rails, from a normal track position to a reverse track position, and from the reverse track position to the normal track position,
- a point detector bar, translatable relatively to the frame along the transverse direction between a normal detection position intended to correspond to the normal track position of the inner rails and a reverse detection position intended to correspond to the reverse track position of the inner rails,
- an indication contact assembly, fixed relatively to the frame, comprising at least one switch,
- at least one detector bar follower, movable relatively to the frame between a proximal position, in which the detector bar follower acts on the switch, and a distal position, in which the detector bar follower is away from the switch, the detector bar follower being adapted to follow displacement of the point detector bar in such a manner that, when the point detector bar is in one of its normal and reverse detection positions, the detector bar follower is in a first position among the proximal and distal positions and, when the point detector bar is in an intermediary position between its normal and reverse detection positions, the detector bar follower is in the second position among the proximal and distal positions,
- an inhibiting element jointly movable with the detector bar follower between a primary position when the detector bar follower is in its first position and a secondary position when the detector bar follower is in its second position,
- a cam bar having a kinematic connection with the throw bar in such a manner that the cam bar and the throw bar are jointly translatable relatively to the frame, the cam bar comprising a tongue portion and being translatable relatively to the frame along a longitudinal direction (X) between an unlock position in which the tongue portion is able to be in contact with a stop of the inhibiting element, preventing the inhibiting element from reaching its secondary position, and a lock position in which the tongue portion is away from the stop, allowing displacement of the inhibiting element between its primary and secondary positions.
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2018203788 30 May 2018
Such switching machines are known and are generally motor driven. An example of such a switching machine is the GRANDMASTER 4000 Switch Machine of ALSTOM.
In the known switching machines, there are generally two detector bar followers, each one being rotatable relatively to the frame around a respective rotation axis and 5 being adapted to act on a respective switch of the indication contact assembly when it is in its proximal position, the detector bar followers comprising a first detector bar follower which is adapted to be in its second position when the point detector bar is in its normal detection position and a second detector bar follower which is adapted to be in its second position when the point detector bar is in its reverse detection position.
This structure allows the switching machine to detect when the inner rails are in their normal position, in their reverse position, and in an intermediate position between their normal and reverse position. Indeed, when the inner rails are in their normal or reverse position, only one of the switches of the indication assembly will be activated by the detector bar followers; this will inform the switching machine that the railroad switch is in a 15 safe configuration, and the switching machine will emit a signal to inform the trains circulating on the railroad that they are allowed to cross the railroad switch. Furthermore, depending on which switch is activated, the switching machine will be able to conclude if the rails are either in their normal or reverse position. When the inner rails are in an intermediate position however, either both or none of the switches will be activated by the 20 detector bar followers, thus providing the switching machine with the information that the railroad switch is not in a safe configuration. As a result, the switching machine will emit a signal to inform the trains circulating on the railroad that they shall not go through the railroad switch.
An additional element of the known switching machines is the lock bar, which is intended to lock the inner rails after the throw bar has switched them into position. To that end, the lock bar has notches formed therein and intended to receive a lock lug of the cam bar when the cam bar is in its lock position. When the inner rails are not properly positioned at the end of the movement of the throw bar, none of the notches formed in the lock bar is aligned with the cam bar, so that the lock lug cannot be received therein; the 30 cam bar can therefore not reach its lock position and release the inhibiting elements. In such a case, the inhibiting elements block the detector bar followers in their first position so that none of the detector bar followers can move towards its second position, even if the point detector bar is in its normal or reverse detection position. As a result, either both or none of the switches will be activated by the detector bar followers, thus providing the 35 switching machine with the information that the railroad switch is not in a safe
2018203788 30 May 2018 configuration, and the switching machine will emit a signal to inform the trains circulating on the railroad that they shall not go through the railroad switch.
As one can easily understand from the foregoing, detection by the switching machine of safe and unsafe configurations of the railroad switch depends on the 5 respective positioning of the point detector bar and of the lock bar, a safe configuration being detected only in the case when both the point detector bar and the lock bar respect a precise positioning relatively to the frame and relatively to each other.
In order to maintain proper operation of the switching machine, monthly inspection of the point detection system is required. Since normal operation of the switching machine 10 involves all components moving together, it is necessary to isolate desired variables for this test. To do this, traditionally the lock bar is forced out of proper adjustment or disconnected from the rails altogether such that the switching machine can indicate a safe configuration of the railroad switch even with an obstruction in the rail, when normal operation of the lock bar would have prevented such an indication to occur. The railroad 15 switch is then manually thrown from one position to the next to determine that the contacts are appropriately adjusted and that the point detector bar is still properly driving the indication. Everything must then be replaced to its original state before maintainers can reinstate the railroad switch and allow trains through.
To disconnect or readjust the lock bar requires numerous large tools and increases 20 the time that maintainers are on the track. This also increases the time that trains are disallowed through that section of track, and maintainers often have to wait for long periods of time before the track is scheduled to be clear long enough for their work. Furthermore, failure to properly restore the adjustment of all components could cause a failure of the switching machine, allowing false indications and potentially causing the 25 derailment of a passing train.
Accordingly, it is a primary object of the present invention to provide a means of disconnecting the function of the lock bar in the switching machine without the need to readjust it.
Another object of the present invention is to decrease the time it takes maintainers to 30 prepare for the Point Detector Integrity Test.
A further object of the present invention is to decrease the number of tools required for maintainers to prepare for the Point Detector Integrity Test.
Still another object of the present invention is to ensure the machine cannot be remotely operated while the Point Detector Integrity Test is occurring.
A yet further object of the present invention is to ensure the proper adjustment of all components in the switching machine is returned before the machine is operable again.
2018203788 30 May 2018
To this end, the invention consists in a switching machine of the aforementioned type, wherein the inhibiting element comprises a main body relatively to which the stop is vertically translatable between an active position, in which the stop is in contact with the tongue portion of the cam bar when the cam bar is in the unlock position, and a passive 5 position, in which the stop is away from the tongue portion of the cam bar when the cam bar is in the unlock position.
According to particular embodiments of the invention, the switching machine further comprises one or several of the following features, considered or alone or according to any technically possible combination:
- the inhibiting element comprises a biasing member biasing the stop toward its active position;
- the switching machine comprises a latch assembly to latch the stop in its passive position;
- the stop comprises a vertical shaft with a shaft body extending through a hole 15 formed in the main body and, on top of the shaft body, a shaft head with a larger diameter than the diameter of the shaft body, and the switching machine comprises an actuation device to displace the stop between its active and passive positions, said actuation device comprising a plate assembly which is vertically translatable relatively to the frame, said plate assembly including a plate having a slot formed therein and through which the shaft 20 body extends, said slot having a shape that follows the path of the shaft when the inhibiting element is displaced between its primary and secondary positions;
- the latch assembly comprises a latch with a front face and a protrusion protruding from said front face, said latch being rotatable relatively to the frame around a horizontal axis between a latching position, in which the protrusion extends within a displacement region of the plate assembly, and a liberation position, in which the protrusion is out of the displacement region of the plate assembly, the position of the plate assembly when the stop is in its passive position being above the position of the protrusion when the latch is in its latching position, and the latch assembly further comprises a biasing element biasing the latch toward its latching position;
- the switching machine comprises a safety circuit to detect when the stop is in its passive position, said safety circuit comprising at least two stationary contacts and at least one mobile contact mounted on the plate assembly in a manner that, when the stop is in one of its passive and active positions, the mobile contact bridges the two stationary contacts, thus closing the safety circuit and, when the stop is in the other one of its 35 passive and active positions, the mobile contact is away from the stationary contacts, thus opening the safety circuit;
2018203788 30 May 2018
- the switching machine comprises two detector bar followers, each one being adapted to act on a respective switch of the indication contact assembly when it is in its proximal position, the detector bar followers comprising a first detector bar follower which is adapted to be in its second position when the point detector bar is in its normal detection position and a second detector bar follower which is adapted to be in its second position when the point detector bar is in its reverse detection position;
- the stop of the inhibiting element of each detector bar follower is closer to the inhibiting element of the other detector bar follower when both inhibiting elements are in their secondary position than when both inhibiting elements are in their primary position, and the tongue portion of the cam bar has a median longitudinal axis which extends between both inhibiting elements;
- the point detector bar has a cylindrical surface in which a notch is formed, the detector bar follower is rotatable relatively to the frame around a vertical rotation axis between its first and second positions and has a follower part adapted for contacting the point detector bar in such a manner that, when the follower part is in contact with the cylindrical surface of the point detector bar, the detector bar follower is in its first position and, when the follower part is received in the notch, the detector bar follower is in its second position, the main body of the inhibiting element is rotatable relatively to the frame around a vertical pivoting axis, and the inhibiting element comprises a connecting rod 20 connecting the detector bar follower to the main body; and
- the detector bar followers have a common biasing device comprising at least one spring having a first end attached to the main body of the inhibiting element of the first detector bar follower and a second end attached to the main body of the inhibiting element of the second detector bar follower, said common biasing device biasing both detector bar followers toward their second position;
These and other features and advantages of the invention will be understood by reference to the following description in conjunction with the annexed drawings, wherein:
- Figure 1 is a plan view of a railroad switch connected to a switching machine according to the invention,
- Figure 2 is a plan view of a point detection system of the switching machine of
Figure 1, wherein some components have been omitted to show hidden details,
- Figure 3 is a cross-section view taken along line Ill-Ill of Figure 2,
- Figure 4 is a perspective view of some components of the point detection system of Figure 2, showing components which had been omitted in Figure 2, an inhibiting device of the point detection system being shown in an active configuration,
2018203788 30 May 2018
- Figure 5 is a plan view showing the cam bar and the components of Figure 4 seen from above,
- Figure 6 is a cross-section view of the components of Figure 5 taken along line VI-VI of Figure 5,
- Figure 7 is a perspective view of a portion of the inhibiting device of the point detection system of Figure 2,
- Figure 8 is a partially exploded perspective view of a plate assembly of the point detection system of Figure 2, and
- Figure 9 is a perspective view of a latch assembly of the point detection system of Figure 2.
The railroad switch 10 shown in Figure 1 has stock rails 12A, 12B and inner rails 14A, 14B. A front rod 16 and a second rod 18 interconnect the inner rails 14A, 14B. The inner rails 14A, 14B are movable relatively to the stock rails 12A, 12B between a reverse position, in which a first inner rail 14A is in contact with a first stock rail 12A, the second 15 inner rail 14B being spaced from the second stock rail 12B, as shown in Figure 1, and a normal position (not shown), in which the first inner rail 14A is spaced from the first stock rail 12A, the second inner rail 14B being in contact with the second stock rail 12B.
The railroad switch 10 is operated by a switching machine 20 according to the invention and which comprises a throw bar 22, a lock bar 24, and a point detector bar 26.
To that end, the throw bar 22 is connected via a throw rod 28 to a rod connector 30 fixed to the second rod 18, the lock bar 24 is connected via a lock rod 32 to a connector lug 34 fixed to the front rod 26, and the point detector bar 26 is connected via a connector rod 36 to a point detector attachment rod 38 which is fixed to one of the inner rails 14A, 14B.
The switching machine 20 comprises a fixed frame 40 elongated along a longitudinal 25 direction X, and each one of the throw bar 22, lock bar 24, and point detector bar 26 is elongated along a transversal direction Y which is substantially perpendicular to the longitudinal direction X. The longitudinal and transversal directions X, Y define together a horizontal plane to which a vertical direction Z is perpendicular.
Each one of the throw bar 22, lock bar 24, and point detector bar 26 is translatable 30 relatively to the frame 40 along said transversal direction Y. In particular, the lock bar 24 is translatable between a normal locking position (not shown) when the inner rails 14A, 14B are in their normal position and a reverse locking position (not shown) when the inner rails 14 are in their reverse position, and the point detector bar 26 is translatable between a normal detection position (not shown) when the inner rails 14A, 14B are in their normal 35 position and a reverse detection position (not shown) when the inner rails 14A, 14B are in their reverse position.
2018203788 30 May 2018
Preferably, the switching machine 20 also comprises a motor (not shown) to drive the throw bar 22.
With reference to Figures 2 and 3, the lock bar 24 has a transversal groove 42 formed in a front face of the lock bar 24, said groove 42 having a vertical flat bottom 5 joining an upper face of the lock bar 24. The lateral extension of the groove 42 is limited, in other words, the groove 42 does not extend along the whole length of the lock bar 24.
The lock bar 24 has also locking slots 44 formed in a bottom face of the lock bar 24, each locking slot 44 emerging in a back face of the lock bar 24. The lateral extension of these locking slots 44 is also limited. They are positioned so that one of said locking slots 10 44 is substantially aligned with the longitudinal median axis M of the frame 40 when the lock bar 24 is in its normal locking position and when the lock bar 24 is in its reverse locking position.
The point detector bar 26 has a cylindrical surface 46 in which a notch 48 is formed. It should be noted that “cylindrical” shall here be understood in its broadest sense, 15 including cases in which the cylindrical surface is not generated by revolution. In particular, this notch 48 is formed by a section of the point detector bar 26 which has a narrower diameter than the rest of the point detector bar 26. The lateral extension of the notch 48 is limited. The notch 48 is positioned so that it is substantially aligned with the longitudinal median axis M of the frame 40 when the point detector bar 26 is midway 20 between its normal and reverse detection positions.
With reference to Figure 3, the switching machine 20 further comprises a cam bar 50 lying at the bottom of switching machine 20. This cam bar 50 is elongated along the longitudinal direction of the frame 40 and it has a longitudinal median axis which is substantially collinear with that of the switching machine 20. The cam bar 50 has a 25 kinematic connection (not shown) with the throw bar 22 in such a manner that the cam bar 50 and the throw bar 22 are jointly translatable relatively to the frame 40. One end of the cam bar is an oblong cam surface (not shown) which coordinates the movement of the throw bar 22 with the motor, so that the cam bar 50 moves linearly along the longitudinal direction from a lock position to an unlock position and then back to the lock position 30 during the switching operation. In the unlock positon, the cam bar 50 is at its furthest back position, as shown in the Figures and, in the lock position, the cam bar 50 is at its furthest forward position in the switching machine 20.
The cam bar 50 comprises a cam body 52, a lock lug 54 in the form of a block attached to the top surface of the cam body 52 at the far end opposite the cam surface.
This lock lug 54 is just low enough to slide through one of the locking slots 44 when the
2018203788 30 May 2018 lock bar 24 is in its normal or reverse position and just tall enough to catch on the lock bar 24 if said lock bar 24 is not in the ideal position.
The cam bar 50 further comprises a tongue portion 56 extending from a point of the top surface of the cam body 52. The tongue portion 56 consists in a flat, narrow bar positioned substantially parallel to the cam body 52 and substantially aligned with the longitudinal median axis M but raised to a higher vertical positon than the cam body 52 via a block 58 at the end of the tongue portion 56 oriented toward the cam surface. The end 60 of the tongue portion 56 opposite the block 58 features 45 degree angled edges such that the very end of the tongue portion 56 is slightly narrower than the rest of it.
Coming back to Figure 2, the switching machine 20 also comprises a contact assembly 62, two detector bar followers 64A, 64B designed to act on the contact assembly depending on the position of the point detector bar 26, and two inhibiting elements 66, each one being able to inhibit action on the contact assembly 62 of a respective one of the detector bar followers 64A, 64B depending on the position of the cam bar 50.
The contact assembly 62 comprises two push-to-open switch devices 70. Each one of these switch devices 70 is adapted so that, when a pressure is applied on this switch device 70, the switch device 70 opens a respective electrical circuit (not shown) connected to said switch device 70, so that the switch device 70 is said to be in an “off” position. When the pressure is released, the switch device 70 closes said respective electrical circuit, so that the switch device 70 is said to be in an “on” position. At least one of the switch devices 70 needs to be in an “on” position so that the switching machine 20 can detect that the railroad switch is in a safe configuration.
Each detector bar follower 64A, 64B is positioned on a respective lateral side of the longitudinal median axis M. It is positioned vertically above and clear of the lock bar 24 while being substantially at the same height as the point detector bar 26.
Each detector bar follower 64A, 64B is rotatable relatively to the frame 40 around a substantially vertical rotation axis 72 between a proximal position, in which the detector bar follower 64A, 64B acts on a respective one of the switch devices 70, and a distal position, in which the detector bar follower 64A, 64B is away from said switch device 70. The rotation axis 72 of the detector bar followers are substantially transversally aligned and are transversally spaced away from each other.
Each detector bar follower 64A, 64B has a body 71 with an elongated, diamond shape overall with two acute-angle corners and two obtuse-angle corners.
The detector bar follower 64A, 64B crosses the vertical rotation axis 72 at a pivot point 74 situated at one of the obtuse-angle corners. At the opposite obtuse-angle corner
2018203788 30 May 2018 is located a correspondence pin 75 (Figure 3), protruding vertically from a lower surface of the body 71, said pin 75 being fixed to the body 71 and being adapted to engage the groove 42 of the lock bar 24 when the lock bar 24 is in one of its normal and reverse locking positions and the detector bar follower 64A, 64B is in its distal position.
Thus, in case the lock bar 24 and the point detector bar 26 are out of correspondence with respect to each other at the end of a rail switching operation, one of the detector bar followers 64A, 64B will have its correspondence pin 75 resting on the lock bar 24 outside of the groove 42 and will thus be prevented from reaching its distal position. As a consequence, both detector bar followers 64A, 64B will keep acting on their 10 respective switch devices 70, so that the switching machine 20 will not be able to indicate a “safe condition” of the railroad switch until the situation is corrected.
At one of the acute-angle corners a roller 76 is positioned, adjacent to the point detector bar 26, and forms a follower part intended to be in contact with the point detector bar 26. At the opposite acute-angle corner is an attachment point 78 which is rotatably 15 attached to an end of a respective one of the inhibiting elements 66.
Each detector bar follower 64A, 64B further includes a switch arm 80 protruding from a top surface of the body 71 and extending substantially horizontally away from the follower part 76. The switch arm 80 has a free end 82 opposite the body 71 with a roller defining the contact surface of the detector bar follower 64A, 64B with the respective 20 switch device 70 when the detector bar follower 64A, 64B it in its proximal position.
The respective positions of the follower part 76 and of the switch arm 80 are adapted so that, when the follower part 76 is in contact with the cylindrical surface 46 of the point detector bar 26, the detector bar follower 64A, 64B is in its proximal position and, when the follower part 76 is received in the notch 48 of the point detector bar 26, the detector 25 bar follower 64A, 64B is in its distal position.
Furthermore, the respective positions of the detector bar followers 64A, 64B and of the point detector bar 26 are adapted so that reception in the notch 48 of the follower part 76 of a first one of the detector bar followers 64A is possible only when the point detector bar 26 is in its normal detection position, so that reception in the notch 48 of the follower 30 part 76 of a second one of the detector bar followers 64B is possible only when the point detector bar 26 is in its reverse detection position, and so that none of the follower parts 76 of both detector bar followers 64A, 64B can be received in the notch 48 without unmounting the switching machine 20 when the point detector bar 26 is in its intermediary position.
Each inhibiting element 66 is positioned on a respective lateral side of the longitudinal median axis M. It comprises a main body 84 which is pivotally mounted on the
2018203788 30 May 2018 frame 40 around a substantially vertical pivoting axis 86 between a primary position shown in Figure 2 and a secondary position (not shown). This pivoting axis 86 is nearer from the longitudinal median axis M than the rotation axis 72 of the respective detector bar follower 64A, 64B.
With reference to Figure 3, the main body 84 comprises a vertical pivot shaft 88 and two horizontal arms 90, 92. The pivot shaft 88 is vertically aligned with the pivoting axis 86 and cooperates with a corresponding vertical pole (not shown) fixed to the frame 40 to allow rotation of the main body 84 relatively to the frame 40. The arms 90, 92 are vertically aligned and are vertically spaced away from each other, a top arm 90 extending 10 substantially horizontally from a top end of the pivot shaft 88 and a lower arm 92 extending substantially horizontally from a lower end of the pivot shaft 88. In particular, the top arm 90 is positioned above the tongue portion 56 of the cam bar 50, and the lower arm 92 is positioned under said tongue portion 56. Each arm 90, 92 has a free end 94, opposite the pivot shaft 88, provided with a hook.
Each inhibiting element 66 further comprises a stop 96 mounted on the main body so that it follows the same horizontal displacement as the main body 84. This stop 96 is positioned so that it is able to abut against the tongue portion 56 of the cam bar 50 when the main body 84 is in its primary position and the cam bar 50 is in its unlock position, and so that it is away from the tongue portion 56 of the cam bar 50 when the 20 main body 84 is in its primary position and the cam bar 50 is in its lock position.
Each inhibiting elements 66 is articulated so that its stop 96 remains on a same lateral side of the longitudinal median axis M between the primary and secondary positions of the main body 84, the stop 96 being closer to the median longitudinal axis M when the main body 84 in its secondary position than when the main body 84 is in its 25 primary position. Thus, the median longitudinal axis M extends between the stops 96 of the inhibiting elements 66 whatever the position of these inhibiting elements 66, and these stops 96 are closer to each other when the main bodies 84 of the inhibiting elements 66 are in their secondary positions than when these main bodies 84 are in their primary position. This has the consequence that, when the cam bar 50 is in its unlock position, its 30 tongue portion 56 prevents the inhibiting elements 66 and thus the main bodies 84 from reaching their secondary positions. However, when the cam bar 50 is in its lock position, its tongue portion 56 being away from the stops 96, displacement of the inhibiting elements 66 between their primary and secondary positions is allowed.
As a consequence, in case the lock bar 24 and the point detector bar 26 are out of 35 correspondence with respect to each other at the end of a rail switching operation, the lock bar 24 preventing the cam bar 50 from reaching its lock position because the lock lug
2018203788 30 May 2018 is not able to engage one of the locking slots 44, both stops 96 will abut against the tongue portion 56 of the cam bar 50, thus preventing both detector bar followers 64A, 64B from reaching their distal positions. Both detector bar followers 64A, 64B will therefore keep acting on their respective switch devices 70, so that the switch machine 20 will not 5 be able to indicate a “safe condition” of the railroad until the situation is corrected.
Each inhibiting element 66 is jointly movable with its respective detector bar follower 64A, 64B so that its main body 84 is in its primary position when the detector bar follower is in its proximal position and in its secondary position when the detector bar follower 64A, 64B is in its distal position. To that end, each inhibiting element 66 comprises a 10 connecting rod 98 connecting the main body 84 to the respective detector bar follower 64A, 64B.
This connecting rod 98 is attached at one end to the respective detector bar follower 64A, 64B via the attachment point 78 described above, and at the other end to the top and lower arms 90, 92 of the main body 84 via rotatable connections 99 which are further 15 away from the pivot shaft 88 than the stops 96.
The connecting rod 98 extends substantially parallel to the point detector bar 26, from the attachment point 78 toward the longitudinal median axis M.
Advantageously, the connecting rod 98 is adjustable in length.
The switching machine 20 further comprises a biasing device 100 biasing the detector bar followers 64A, 64B toward their distal positions. This biasing device 100 comprises two extension springs 102, each one having a first end attached to the main body 84 of a first one of the inhibiting elements 66 and a second end attached to the main body 84 of a second one of the inhibiting elements 66. In particular, a first one of the springs 102 has its ends attached to the hooks provided at the free ends 94 of the top 25 arms 90 of both main bodies 84, and a second one of the springs 102 has its ends attached to the hooks provided at the free ends 94 of the lower arms 92 of both main bodies 84.
The two springs 102 are therefore stretched horizontally between the arms 90, 92 of the two main bodies 84, roughly parallel to the point detector bar 26. These springs 102 30 thus work to draw the free ends 94 of the arms 90, 92 toward each other, biasing these main bodies 84 toward their secondary positions. This has the consequence that the connector rods 98 of both inhibiting elements 66 are pulled toward each other, these connector rods 98 thus applying a biasing force on the detector bar followers 64A, 64B, at the attachment points 78, this force biasing the detector bar followers 64A, 64B toward 35 their distal position.
2018203788 30 May 2018
Turning now to Figures 4 to 7, there is shown that the stop 96 of each inhibiting element 66 (even though only one of these inhibiting elements 66 is shown of these figures, the other one is the symmetrical counterpart of the shown inhibiting element 66) comprises a mobile shaft 104 and a roller 107 attached at a lower end of said mobile shaft 5 104. The mobile shaft 104 has a shaft body 105 extending substantially vertically through a hole 106 in the top arm 90 of the main body 84 and, at the top of said shaft body 105, a flat, round head 108. The stop 96 is therefore vertically translatable relatively to the main body 84 between an active position, shown in Figures 4 and 7, in which the stop 96 rests on the lower arm 92 of the main body 84, and a passive position, shown in Figures 3 and 10 6, in which the stop 96 is at distance from the lower arm 92, said distance being greater than the thickness of the tongue portion 56 of the cam bar 50. When the stop 96 is in its active position, the roller 107 is able to be in contact with the tongue portion 56 of the cam bar 50 when the cam bar 50 is in the unlock position, thus hindering displacement of the main body 84 toward its secondary position, and, when the stop 96 is in its passive 15 position, the roller 107 is not able to be in contact with the tongue portion 56 of the cam bar 50 even when the cam bar 50 is in the unlock position, thus allowing displacement of the main body 84 toward its secondary position even when the cam bar 50 is in the unlock position.
A compression spring 109 is also mounted coaxially on said mobile shaft 104 20 between the hole 106 and the roller 107 with a washer (not shown) between the spring 109 and the roller 107 so that it acts as a biasing member biasing said stop 96 toward its active position.
The switching machine 20 further comprises an actuation device to move the stops 96 of the inhibiting elements 66 between their active and passive positions. This actuation 25 device comprises a plate assembly 110 which is vertically translatable relatively to the frame 40 in a displacement region constituted by the space extending vertically above and under the plate assembly 110.
This plate assembly 110 comprises a bottom plate 112 and a top plate 114 connecting the mobile shafts 104 of both inhibiting elements 66.
With reference to Figure 8, the bottom plate 112 comprises a slot 116 through which the shaft bodies 105 of the mobile shafts 104 extend. Said slot 116 is a symmetrical shape specially designed to allow the mobile shafts 104 to move normally during normal operation. As such, said slot 116 has a swept shape that follows the path of the mobile shafts 104 when the main bodies of the inhibiting members 66 are pivoted between their 35 primary and secondary positions.
2018203788 30 May 2018
Extending along the bottom planar edge of the slot 116 is a ridge 118 on which the round heads 108 of the mobile shafts 104 are adjacent. The height of the slot 116 above the ridge 118 is sized such that the heads 108 of the mobile shafts 104 have enough room to move between the bottom and top plates 112, 114 without excessive friction preventing 5 motion.
The top plate 114 comprises an oval slot 120 with no ridge such that it sandwiches the shaft heads 108 when connected to said bottom plate 112 without pressing on said shaft heads 108. Said slot 120 is just narrower than the heads 108 of the mobile shafts 104 such that it forms a lip to hold the mobile shafts 104. The bottom and top plates 112, 10 114 each feature a pair of two holes 122, with the top plate 112 featuring a cutout 124 around said holes 122.
These bottom and top plates 112, 114 are held together via a vertical handle 126, which also acts to enable maintenance personnel to lift the aforementioned plates 112, 114. Pulling said handle 126 up pulls the mobile shafts 104, thereby lifting the stops 96 15 and compressing the springs 109.
The handle 126 is in the form of a round bar, bent at 90 degree angles 128 in two places, with a length 130 at each end that is of a smaller diameter than the main bar 132 such that a lip 134 is formed where the smaller diameter end 130 meets the larger diameter main bar 132. The smaller ends 130 are inserted through the holes 122 in the 20 bottom and top plates 112, 114, with the lip 134 abutting against the top surface of the cutout 124 on the top plate 112. Bolts 136 are threaded onto the ends 130 of said handle 126 to hold the top and bottom plate 112, 114 together against the lip 134 and to hold said handle 126 to said plates 112, 114.
The top plate 114 also comprises two arms 140 extending horizontally toward the 25 front, each with a metal mobile contact 142 mounted to the underside via a rivet 144.
Each mobile contact 142 is in the shape of an inverted V with a flat bottom 146. These mobile contacts 142 are part of a safety circuit which must be closed for remote electrical operation of the switching machine 20 to take place, said safety circuit further comprising stationary contacts 148 (Figure 5) mounted to the top of a back plate 149 (Figure 6) which 30 is fixed relatively to the frame 40. These mobile contacts 142 are positioned so that, in the active position of the stops 96, they each bridge two of the stationary contacts 148 to close the safety circuit and, in the passive position of the stops 96, they both are away from the stationary contacts 148, thus letting the safety circuit open. Maintainers’ safety from sudden switch machine operation which could be triggered by a remote dispatcher is 35 therefore ensured when the stops 96 are in their passive position.
2018203788 30 May 2018
Returning to Figure 4 to 7, the switching machine 20 further comprises a latch assembly 150 for locking the plate assembly 110 in place.
With reference to Figure 9, this latch assembly 150 comprises a latch 152 having a flat vertical shape and mounted on a horizontal shaft 154 with a torsion spring 156 onto a 5 bracket 158, said bracket 158 being fixed relatively to the frame 40. In particular, the bracket 158 features a pair of holes 160 for mounting to the pivot shafts 88 of the main bodies 84 of the inhibiting elements 66.
The latch 152 comprises a front face 161 and a protrusion 162 protruding from said front face 161, the protrusion 162 having a top face 164 and a bottom face 166. These 10 two faces 164, 166 are not quite parallel. If the top surface 164 is said to be horizontal, the bottom surface 166 angles up slightly so as to be in the correct position for holding said plate assembly 110 either up or down.
This latch 152 is rotatable relatively to the frame 40 around the horizontal shaft 154 between a latching position, in which the protrusion 162 extends within the displacement 15 region of the plate assembly 110, and a liberation position, in which the protrusion 162 is excluded from said displacement region.
The position of the plate assembly 110 when the stops 96 are in their passive position is above the position of the protrusion 162 when the latch 152 is in its latching position, and the position of the plate assembly 110 when the stops 96 are in their active 20 position is under the position of the protrusion 162 when the latch 152 is in its latching position. The top face 164 of the protrusion 152 constitutes a resting surface on which the bottom plate 112 rests when the stops 96 are in their passive position, thus preventing the stops 96 from coming back to their active position, and the bottom face 166 constitutes a pressing surface which rests on top of the top plate 114 when the stops 96 are in their 25 active position, thus preventing the stops 96 from being dislodged from their active position.
The front face 161 of the latch 152 comprises a flat front portion 168 just below the protrusion 162. This flat portion 168 pushes against a back side of the plates 112, 114 when the stops 96 are in their active position, so that the spring 156 does not lose tension.
The front face 161 further comprises a curved front portion 170 below the flat portion 168; this curved front portion 170 is designed to prevent collision with the top plate 114 when the stops 96 are in their active position.
The latch 152 further comprises an angled area 172 at its top, above the protrusion 162, and a spring rest area 174 at its back, behind the curved front portion 170. The 35 angled area 172 functions as a handle to pull said latch 152 out of the way to lift the
2018203788 30 May 2018 handle 126 when the stops 96 are in their active position. The spring rest area 174 consists in a slot receiving a part of the torsion spring 156.
The torsion spring 156 acts as a biasing element biasing the latch 152 toward its latching position. To that end, the torsion spring 156 features two tail ends 176, which go 5 into small holes located at the outer edge of the bracket 158, and a middle loop 178 which applies pressure to the spring rest area 174 to hold the latch 152 into positon up against the aforementioned plate assembly 110. Thus, when the latch 152 is pulled to rotate back, the torsion spring 156 is tightened, increasing the spring tension. The torsion spring 156 is also adapted to provide consistent rotational pressure into the latch 152.
Thanks to the invention described above, preparing the switching machine 20 for the
Point Detector Integrity Test is facilitated. Indeed, to disconnect the functions of the point detector bar 26 and of the lock bar 24, the maintainers merely need to displace the stops 96 toward their passive position by pulling the handle 124 up while pushing on the angled area 172 of the latch 152. When the handle 124 has been pulled up, the latch 152 will 15 return in its latching position, thus insuring that the stops 96 remain in their passive position.
There is in particular no need to disconnect the lock bar 24 or the point detector bar 26 from the rails 14A, 14B, and therefore no need to readjust the position of these bars 24, 26 relative to the rails 14A, 14B after the switching machine 20 has been tested. 20 Indeed, since, when the stops 96 are in their passive position, displacement of the main bodies 84 between their primary and secondary positions is no longer conditioned on the cam bar 50 being in its lock position, i.e. the positioning of the lock bar 24 relative to the came bar 50 and notably of the lock lug 54 relative to locking slots 44 does not limit the movement of the main bodies 84 between their primary and secondary positions, 25 actuation of the contact assembly 62 by the detector bar followers 64A, 64B is consequently not conditioned on the lock bar 24 having reached its normal or reversed position: the point detector bar 26 is thus isolated from the lock bar 24, so that a test can be run without both the point detector bar 26 and the lock bar 24 respecting a precise positioning relatively to the frame 40 or relatively to each other. As a consequence 30 thereof, the number of tools is decreased, as well as the time spent by the maintainers to realize the Point Detector Integrity Test. Furthermore, there is no risk that the components of the switching machine 20 are not returned to their proper adjustment after the test.
In addition, the switching machine 20 provides enhanced security to the maintainers, since remote operation of the switching machine 20 is impossible when the stops 96 are 35 in their passive position, which condition is necessary for the Point Detector Integrity Test to be conducted. There is therefore no risk that the maintainers are injured by a
2018203788 30 May 2018 displacement of components of the switching machine 20 caused by a remote operation of the switching machine 20 during the test.
Throughout this specification and the claims which follow, unless the context requires otherwise, the word comprise, and variations such as comprises and 5 comprising, will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.
The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an 10 acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavor to which this specification relates.

Claims (10)

  1. THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:
    1.- A switching machine for switching the position of railway tracks, the switching machine comprising:
    5 - a frame, intended to be fixed relatively to a pair of stock rails of a railroad switch,
    - a throw bar translatable relatively to the frame along a transverse direction to throw a pair of inner rails of the railroad switch, located between the stock rails, from a normal track position to a reverse track position, and from the reverse track position to the normal track position,
    10 - a point detector bar, translatable relatively to the frame along the transverse direction between a normal detection position intended to correspond to the normal track position of the inner rails and a reverse detection position intended to correspond to the reverse track position of the inner rails,
    - an indication contact assembly, fixed relatively to the frame, comprising at least
    15 one switch,
    - at least one detector bar follower, movable relatively to the frame between a proximal position, in which the detector bar follower acts on the switch, and a distal position, in which the detector bar follower is away from the switch, the detector bar follower being adapted to follow displacement of the point detector
    20 bar in such a manner that, when the point detector bar is in one of its normal and reverse detection positions, the detector bar follower is in a first position among the proximal and distal positions and, when the point detector bar is in an intermediary position between its normal and reverse detection positions, the detector bar follower is in the second position among the proximal and distal 25 positions,
    - an inhibiting element having a main body and being jointly movable with the detector bar follower so that its main body is in a primary position when the detector bar follower is in its first position and in a secondary position when the detector bar follower is in its second position,
    30 - a cam bar having a kinematic connection with the throw bar in such a manner that the cam bar and the throw bar are jointly translatable relatively to the frame, the cam bar comprising a tongue portion and being translatable relatively to the frame along a longitudinal direction between an unlock position in which the tongue portion is able to be in contact with a stop of the inhibiting element, 35 preventing the main body of the inhibiting element from reaching its secondary position, and a lock position in which the tongue portion is away from the stop,
    2018203788 30 May 2018 allowing displacement of the main body of the inhibiting element between its primary and secondary positions, wherein the stop is vertically translatable relatively to the main body between an active position, in which the stop is in contact with the tongue portion of the cam bar when 5 the cam bar is in the unlock position, preventing the main body from reaching its secondary position, and a passive position, in which the stop is away from the tongue portion of the cam bar when the cam bar is in the unlock position, allowing displacement of the main body between its primary and secondary positions.
  2. 2. - The switching machine of claim 1, wherein the inhibiting element comprises a 10 biasing member biasing the stop toward its active position.
  3. 3. - The switching machine of claim 1 or 2, comprising a latch assembly to latch the stop in its passive position.
  4. 4. - The switching machine of any one of the preceding claims, wherein the stop comprises a vertical shaft with a shaft body extending through a hole formed in the main
    15 body and, on top of the shaft body, a shaft head with a larger diameter than the diameter of the shaft body, and the switching machine comprises an actuation device to displace the stop between its active and passive positions, said actuation device comprising a plate assembly which is vertically translatable relatively to the frame, said plate assembly including a plate having a slot formed therein and through which the shaft body extends, 20 said slot having a shape that follows the path of the shaft when the main body of the inhibiting element is displaced between its primary and secondary positions.
  5. 5. - The switching machine of claim 4, comprising a latch assembly to latch the stop in its passive position, wherein the latch assembly comprises a latch with a front face and a protrusion protruding from said front face, said latch being rotatable relatively to the
    25 frame around a horizontal axis between a latching position, in which the protrusion extends within a displacement region of the plate assembly, and a liberation position, in which the protrusion is out of the displacement region of the plate assembly, the position of the plate assembly when the stop is in its passive position being above the position of the protrusion when the latch is in its latching position, and the latch assembly further 30 comprises a biasing element biasing the latch toward its latching position.
  6. 6. - The switching machine of claim 4 or 5, comprising a safety circuit to detect when the stop is in its passive position, said safety circuit comprising at least two stationary contacts and at least one mobile contact mounted on the plate assembly in a manner that, when the stop is in one of its passive and active positions, the mobile contact bridges the
    35 two stationary contacts, thus closing the safety circuit and, when the stop is in the other
    2018203788 30 May 2018 one of its passive and active positions, the mobile contact is away from the stationary contacts, thus opening the safety circuit.
  7. 7.- The switching machine of any one of the preceding claims, comprising two detector bar followers, each one being adapted to act on a respective switch of the 5 indication contact assembly when it is in its proximal position, the detector bar followers comprising a first detector bar follower whose main body is adapted to be in its second position when the point detector bar is in its normal detection position and a second detector bar follower whose main body is adapted to be in its second position when the point detector bar is in its reverse detection position.
    10
  8. 8.- The switching machine of claim 7, wherein the stop of the inhibiting element of each detector bar follower is closer to the inhibiting element of the other detector bar follower when the main bodies of both inhibiting elements are in their secondary position than when the main bodies of both inhibiting elements are in their primary position, and the tongue portion of the cam bar has a median longitudinal axis which extends between 15 both inhibiting elements.
  9. 9. - The switching machine of any one of the preceding claims, wherein the point detector bar has a cylindrical surface in which a notch is formed, the detector bar follower is rotatable relatively to the frame around a vertical rotation axis between its first and second positions and has a follower part adapted for contacting the point detector bar in
    20 such a manner that, when the follower part is in contact with the cylindrical surface of the point detector bar, the detector bar follower is in its first position and, when the follower part is received in the notch, the detector bar follower is in its second position, the main body of the inhibiting element is rotatable relatively to the frame around a vertical pivoting axis, and the inhibiting element comprises a connecting rod connecting the detector bar 25 follower to the main body.
  10. 10. - The switching machine of claim 8, wherein the point detector bar has a cylindrical surface in which a notch is formed, wherein the detector bar follower is rotatable relatively to the frame around a vertical rotation axis between its first and second positions and has a follower part adapted for 30 contacting the point detector bar in such a manner that, when the follower part is in contact with the cylindrical surface of the point detector bar, the detector bar follower is in its first position and, when the follower part is received in the notch, the detector bar follower is in its second position, wherein the main body of the inhibiting element is rotatable relatively to the frame
    35 around a vertical pivoting axis,
    2018203788 30 May 2018 wherein the inhibiting element comprises a connecting rod connecting the detector bar follower to the main body, and wherein the detector bar followers have a common biasing device comprising at least one spring having a first end attached to the main body of the inhibiting element of 5 the first detector bar follower and a second end attached to the main body of the inhibiting element of the second detector bar follower, said common biasing device biasing both detector bar followers toward their second position.
AU2018203788A 2017-06-08 2018-05-30 Switching machine for a railroad Abandoned AU2018203788A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP17305682.1A EP3412535B1 (en) 2017-06-08 2017-06-08 Switching machine for a railroad
EP17305682.1 2017-06-08

Publications (1)

Publication Number Publication Date
AU2018203788A1 true AU2018203788A1 (en) 2019-01-03

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AU2018203788A Abandoned AU2018203788A1 (en) 2017-06-08 2018-05-30 Switching machine for a railroad

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US (1) US20180354533A1 (en)
EP (1) EP3412535B1 (en)
AU (1) AU2018203788A1 (en)
CA (1) CA3006861A1 (en)
DK (1) DK3412535T3 (en)
MX (1) MX2018006645A (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
PL3380386T3 (en) * 2015-11-24 2021-09-20 Siemens Mobility Pty Ltd. Point machine and electrical switch with snap-action and method of operating said point machine
CN205256353U (en) * 2015-12-07 2016-05-25 西安全路通号器材研究有限公司 Contact system
US11661094B2 (en) * 2018-05-21 2023-05-30 Vossloh Signaling Usa, Inc. Reverse angled point slider
US11414108B2 (en) * 2018-12-10 2022-08-16 L&W Industries, LLC Railroad switch circuit controller assembly

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102004013498B4 (en) * 2004-03-12 2006-08-24 Siemens Ag Tongue detector arrangement for switches
PL2923914T3 (en) * 2014-03-25 2017-06-30 Siemens Schweiz Ag Hollow sleeper point positioning system with cam rod stroke limitation

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Publication number Publication date
CA3006861A1 (en) 2018-12-08
EP3412535B1 (en) 2019-12-11
EP3412535A1 (en) 2018-12-12
US20180354533A1 (en) 2018-12-13
DK3412535T3 (en) 2020-03-02
MX2018006645A (en) 2019-03-01

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MK1 Application lapsed section 142(2)(a) - no request for examination in relevant period