Abstract:
The invention relates to a device to be integrated with to a manual switch stand, particularly for use in dark territory. The device secures the spindle of the switch stand against rotation, thereby preventing authorized throwing of the switches. The device also contains sensors that will clearly indicate to an external observer both the position of the switch points and the locked or unlocked status of the switch stand. A particular sequence of steps must be taken before an operator will be able to unlock the switch stand and throw the switch, and further steps are required before he can secure the switch stand and remove his key. The switch stand must therefore be left in a locked state, and it continuously indicates the status of the switch stand to a remote monitor.

Description:
FIELD OF THE INVENTION 
       [0001]    This invention relates to a mechanism to provide a definite indication of the position of the switch controlled by a switch stand and to secure the stand against unauthorized switching, and is particularly applicable for stands used in dark territory. 
       BACKGROUND OF THE INVENTION 
       [0002]    A railroad switch includes moveable switch points (sometimes called blades) that direct the wheels onto the appropriate track. The switch points are driven from a first position, to direct the train onto one track, to a second position, to direct the train onto another track, by a power operated switch machine, or by a manually operated switch stand. The points are locked in one position until required to be switched back to the other position. Rail terminology commonly refers to the switch point position for the track most frequently used as the “normal” position, and the position for the track less frequently used as the “reverse” position. 
         [0003]    A power operated switch machine is typically used in areas of high rail traffic or in other areas where the expense of a centrally controlled signal system can be justified. The switch machine monitors whether the switch points have been locked and, if so, in what position they are locked, and notifies the signal system of this status. The signal system uses this information to regulate approaching trains and to ensure safe operation given the status of the switch points. 
         [0004]    At locations where the cost of a power operated switch machine is uneconomical, a manual switch stand may be used to control the operation of the switch points. The manual switch stand is operated by a railway employee standing adjacent to the track. To prevent tampering, most manual switch stands located outside of classification yards are locked with a padlock. To operate the switch stand, the employee must unlock the padlock, disengage the locking mechanism holding the switch points, and lift or rotate the hand throw lever to move the points to the new position. The locking mechanism must then be engaged and the employee must visually confirm that the points are held in the intended position before allowing a train to pass over the switch. Before leaving the switch, the employee must leave the switch points locked in a specified position, and reattach and relock the padlock. Safe operation of this type of system is ensured only if all employees are familiar with, and follow, a detailed set of rules in order to secure the switch stand. 
         [0005]    However, a single human error can result in a manual switch stand being left unattended in an incorrect position. If the switch stand is left unlocked, vandals may tamper with the hand throw lever, leaving the switch points in an unexpected position, or in a position in which the points are not locked in either of the expected positions. Numerous train accidents have been documented as a result of employee failure to properly secure a manual switch stand. U.S. Pat. No. 5,642,870 to Sargis describes a switch stand having a locking device to clamp a throw lever within a cradle, but no means to secure that locking device against unauthorized operation. 
         [0006]    The simplest way to lock a manually operated switch stand is to immobilize the throw lever. A switch stand system including a padlock to secure the hand throw lever is shown in U.S. Pat. No. 6,164,601 to Scheer and McCord. U.S. Pat. No. 383,965 to Manning shows a spring-biased bolt extending into a recess in a throw lever, securing the lever until a key is inserted to retract the bolt. U.S. Pat. No. 1,092,259 to Ham shows an integral key-based lock to secure the throw lever. U.S. Pat. No. 379,708 to Manning shows a lock-case on the throw lever which slides to secure the lever within a guide on the switch stand. A series of patents issued to Torpey (U.S. Pat. Nos. 952,022; 949,098; 900,131; and 868,305) show a locking bolt in a casing integrated into the switch stand housing, which engages notches provided in the hub of the throw lever, immobilizing the hub and lever until the bolt is raised. 
         [0007]    A switch stand may also be secured by locking other parts of the switch stand. A system including multiple padlocks to secure various parts of the switch stand is shown in U.S. Pat. No. 7,267,304 to Scheer. Generally, padlock-based security systems rely heavily on the competence and attention of the operator, as discussed above. 
         [0008]    In most situations, if a key is to be used to lock and unlock the switch stand, it is preferable that the locking mechanism physically retain the key in the lock until the points are confirmed to be fully locked in the normal or reverse position, and the stand is secured against further movement. This prevents a switch operator from leaving a switch open without also leaving his key behind, and also should prevent a key from being lost during switch operation. Further, if a key is left behind, it may be traced to a particular operator. U.S. Pat. No. 525,678 to Dedel describes a specialized key that is retained within a lock once the lock is opened to release the throw lever, and further includes a belt worn by the operator, to which the key is attached, rendering it very difficult to leave a switch open accidentally. 
         [0009]    In addition to properly securing the switch points controlled by a manual switch stand, it is important to monitor the position of the switch points and to clearly communicate that information to an oncoming train before it passes over the switch. If the switch point status can be visually displayed to an oncoming train, this allows the train to stop for an incorrectly positioned switch. Status display may be done through a flag-based system, such as that shown in U.S. Pat. No. 7,267,304 to Scheer, which shows a multi-coloured flag-based system, wherein the colour of the flag displayed to a train operator indicates the position of the switch. U.S. Pat. No. 2,740,041 to Marcum describes a status indicator which uses appropriately colored lights to indicate the switch position. U.S. Pat. No. 5,470,035 to Sagis shows an electrical switch stand having lights to indicate switch position. 
         [0010]    In order to monitor the position of the associated switch points, several systems have been used. U.S. Pat. No. 5,348,257 to Ocampo shows a detection system located near the stock rail, along with a heating element to prevent adverse weather conditions from affecting the efficiency of the detector. U.S. Pat. No. 2,740,041 to Marcum describes a status indicator having electrical contacts located between the rails in the switch, which respond to movements of the rod connecting the points to illuminate appropriately colored signal lights. U.S. Pat. No. 6,427,949 to Hager et al. describes a point detection system based on a linear variable differential transformer. Many other systems use proximity sensors. For example, U.S. Pat. No. 6,149,106 to McQuistian describes a point position indicator having proximity sensors located on the stock rails at a switch. In U.S. Pat. No. 5,806,809 to Danner, proximity sensors are located near the switch points, with other proximity sensors being located within the switch machine to monitor the position of various lock rods and lock bars. U.S. Pat. Nos. 6,186,448 to Wydotis et al., 6,688,559 to Brushwood and 6,296,208 to Franke all incorporate proximity sensors near a sleeved point detection bar. 
         [0011]    A common monitoring system is a switch circuit controller, such as that shown in U.S. Pat. No. 5,598,992 to Chew. This type of controller is typically mounted to the railroad ties and is connected to the operating rod or to one or more switch rods. Any movement of a rod causes a crank arm associated with the controller to rotate, in turn rotating a cam shaft, and causing the appropriate electrical contacts to be made within the controller housing. However, a switch circuit controller must be regularly adjusted to compensate for lost motion between the cams of the cam shaft, the crank arm and the operating rod, as well as to ensure that all internal movable contacts are properly aligned. This is time-consuming, expensive and can be difficult to do correctly. U.S. Pat. No. 6,484,974 to Franke discloses a switch machine controller using Namur sensors to detect point positions. U.S. Pat. No. 6,062,514 to McQuistian also discloses a switch circuit controller based on proximity sensors. 
         [0012]    It is therefore an object of the invention to provide a locking mechanism and a point position indicator that overcomes the foregoing deficiencies. 
         [0013]    In particular, it is an object of the invention to provide a simple means to secure a switch stand and to obtain constant indications of the status of the switch stand and of the associated switch. 
         [0014]    It is a further object of the invention to provide a device which will secure a switch and will provide constant indications of the status of the switch, without the need for ongoing adjustment of the internal components of the device. 
         [0015]    These and other objects of the invention will be appreciated by reference to the summary of the invention and to the detailed description of the preferred embodiment that follow. 
       SUMMARY OF THE INVENTION 
       [0016]    Generally speaking, the invention employs two main mechanisms: an integrated locking system and an arrangement of sensors that can continuously notify an external monitor or monitoring device as to the status of the switch points. 
         [0017]    The integrated lock system is designed to require the operator to insert a key before throwing the switch point lock handle. The lock handle must be physically disengaged (unlocked) before the switch points can be moved, but the handle cannot be disengaged until the key is turned. Further, once the key is inserted properly it is retained within the device and can only be removed once the locking handle has been returned to an engaged (locked) position, presumably after the switch points have been moved to the desired position. 
         [0018]    To ensure proper and safe operation of the switch, the locking handle cannot be engaged unless the switch points are either in the “normal” position or the “reverse” position. The locking handle will not lock (and the key therefore cannot be removed) if the switch points are at any position between normal and reverse. The operator cannot leave the switch points unlocked in a mid-throw position without leaving the key behind. 
         [0019]    Sensors are used to continuously monitor the location and status of the switch stand, whether it is unlocked, locked in the normal position, or locked in the reverse position. An external device or monitor receives information obtained from these sensors and broadcasts the status of the switch points so that approaching trains can be handled accordingly. 
         [0020]    The locking control and status indicator prevents human error from compromising the safety of manually operated railway switches. It requires employees operating a switch stand to leave the stand in a locked state, and it continuously indicates the status of the switch stand (unlocked, locked in normal, or locked in reverse) through an external notification device to a remote monitor. 
         [0021]    In one aspect, the invention comprises a rail switch stand comprising an elongated spindle mounted for rotation about a vertical axis, wherein rotation of the spindle is adapted to cause actuation of a throw rod; a lever for manually actuating rotation of the spindle, the plane of motion of the lever being spatially offset from the axis; a plate lying substantially in a horizontal plane and being coupled to an intermediate portion of the spindle for co-axial rotation therewith, the plate comprising at least one engagement surface for engaging a locking bar, wherein engagement of the locking bar in the engagement surface locks the spindle against rotation; and a lock sensor for sensing when the locking bar is engaged in the engagement surface. The engagement surface may be a notch in the plate. The locking bar may be vertically elongated and displaceable into and out of engagement with the engagement surface by lateral movement, which may be effected by movement of a handle member. 
         [0022]    In a further aspect, the invention comprises an enclosure mounted about an intermediate portion of the spindle, and the plate is disposed in the enclosure. 
         [0023]    In yet a further aspect, the rail switch stand of the invention may comprise a second engagement surface, each of the engagement surfaces corresponding to first and second positions of the throw rod. The engagement surfaces may be disposed about the plate at 90 degrees of angular separation. 
         [0024]    In another aspect, the invention comprises a rail switch stand having a switch position sensor for sensing a rotational position of the plate, the rotational position corresponding to the position of the throw rod. In a more particular aspect, the switch position sensor may comprise two contacts corresponding to two angularly displaced other contacts on the plate. 
         [0025]    In yet another aspect, the invention comprises a retractable stop member for retaining the locking bar in a first position corresponding to engagement with the engagement surface when a key is in a locking state. 
         [0026]    In another aspect, the invention comprises a switch stand having retention means to retain a key within the switch stand when the key is in a non-locking state. 
         [0027]    In a more particular aspect, the invention comprises a rail switch stand having a second engagement surface disposed about the plate at 90 degrees of angular separation from a first engagement surface; and a switch position sensor for sensing the rotational position of the plate, the rotational position corresponding to the position of the throw rod; the switch position sensor comprising two contacts corresponding to two angularly displaced other contacts on the plate. 
         [0028]    In another aspect, the invention comprises an integrated lock control and status indication device for a manually operated railway switch stand, comprising a plate; a locking member engageable with at least one engagement surface in the plate to prevent rotation of the plate; a handle member to control engagement and disengagement of the locking member with the at least one engagement surface; a lock means to maintain the locking member in engagement with the engagement surface until a matching key has been inserted; and a first sensor to sense the engagement and disengagement status of the locking member. In a further aspect, the engagement surface corresponds to a rail switch position of normal or reverse, and the locking member prevents rotation of the plate only if the rail switch is fully in a normal or reverse position. In yet a further aspect, the handle member can move into a locked position only when the locking member is engaged with the engagement surface, and the lock means may retain the key unless the locking member is engaged in the engagement surface. 
         [0029]    In another aspect of the invention, the engagement or disengagement status of the switch and the switch stand may be communicated to an external notification device. 
         [0030]    In another aspect of the invention, the device may comprise a second sensor to sense the position of the plate and to provide an indication of a rail switch position of normal or reverse. The indication of a rail switch position may be communicated to an external notification device. 
         [0031]    In yet another aspect, the invention comprises a manually operated railway switch stand comprising a throw handle rotatably connected to a spindle, by which switch points may be controlled; an plate through which the spindle passes, such that the plate and the spindle rotate in a coordinated manner; a locking member that may engage at least one engagement surface in the plate to prevent rotation of the plate and the spindle; a handle member to manually control engagement and disengagement of the locking member with the at least one engagement surface; a lock means that maintains the locking member in engagement with the plate until a matching key has been inserted; and a first sensor to monitor engagement and disengagement status of the locking member. The invention may further comprise a second sensor to monitor the position of the plate and to provide an indication of a position of the switch points. 
         [0032]    The engagement or disengagement status and/or the indication of a rail switch position may be communicated to an external notification device. 
         [0033]    In another aspect, the invention comprises a method of operating a rail switch stand, comprising the sequential steps of inserting a key to move a retractable stop member out of abutment with a locking member; turning a handle member to disengage said locking member from a first engagement surface on a plate; actuating a lever to rotate a spindle on which said plate is coaxially mounted, thereby rotating said plate and wherein rotation of said spindle causes rotation of a throw rod operatively connected to said lever; and sensing when said locking member is disengaged from said first engagement surface through a first sensor means in operative communication with said locking member and thereby determining a status of said switch stand. The status sensed may be signaled to an external notification device. The method may include the further step of sensing a position of said throw rod through a second sensor means in operative communication with said plate. The position sensed may also be signaled to an external notification device. 
         [0034]    In another aspect, the invention comprises a method of securing a rail switch stand, comprising the sequential steps of moving a lever operatively connected to a throw rod and to an elongated spindle, such that said throw rod is in a reverse or normal position; actuating a handle member to engage a locking member with an engagement surface on a plate mounted on an intermediate portion of said spindle; sensing that said locking member is engaged with said first engagement surface with a sensor means; applying a retractable stop member to a lateral portion of said locking member; and removing a key from a lock means controlling said retractable stop member. The method may comprise the further step of locking said lever in place, when said throw rod is in said normal or reverse position. A signal that said locking member is engaged with said first engagement surface may be sent to an external notification device. The method may comprise the further step of sensing a position of said throw rod through a second sensor means in operative communication with said plate. The position of said throw rod may also be signaled to an external notification device. 
         [0035]    The foregoing was intended as a broad summary only and of only some of the aspects of the invention. It was not intended to define the limits or requirements of the invention. Other aspects of the invention will be appreciated by reference to the detailed description of the preferred embodiment and to the claims. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0036]    The preferred embodiment of the invention will be described by reference to the drawings in which: 
           [0037]      FIG. 1  is a perspective view of a switch stand incorporating the locking control and status indicator of the invention; 
           [0038]      FIG. 2  is a top perspective view of the switch stand of  FIG. 1 , with the top cover of the locking control and status indicator of the invention removed; and 
           [0039]      FIG. 3  is a sectional view of the locking control and status indicator of the invention, taken along line  3 - 3  of  FIG. 2 ; 
           [0040]      FIG. 4  is an enlarged sectional view of the locking control and status indicator of the invention, taken along line  4 - 4  of  FIG. 2 . 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0041]    Referring to  FIG. 1 , the switch stand  10  is preferably a manual stand comprising a base  12  supporting a lever or throw handle  14  which moves between normal and reverse positions and may be secured in those positions by foot latches  16 .  FIG. 1  illustrates the throw handle  14  having a yoke  17  to interact with the foot latch  16 , but it will be understood that any throw handle  14  of suitable configuration may be used, and in particular that the throw handle  14  need not have any yoke  17 , but if a yoke is present, it may be of any suitable configuration. In addition, a secondary locking method, such as a padlock (not shown) may be used to secure the throw handle  14  to one of the foot latches  16 , as is known in the art. The actuation of the throw handle  14  causes a vertical, elongated spindle  18  to rotate, moving the appropriate rods, such as throw rods, and throwing the associated switch points (not shown). Rotation of the spindle  18  also moves the mounted flag or target  22  to an appropriate position to visually indicate the position of the switch points. 
         [0042]    Switch stand  10  is further fitted with an extended support  24  terminating in an enclosure  26  designed to house the locking control and status indicating apparatus. As best shown in  FIGS. 2 and 3 , the spindle  18  passes through the enclosure  26  and is fitted within a plate, such as index plate  28 , inside the enclosure  26 . The spindle  18  is preferably fitted within index plate  28  such that rotation of the spindle  18  causes index plate  28  to rotate in a coordinated, preferably essentially co-axial, manner. Index plate  28  comprises one or more engagement surfaces, which may be of any appropriate configuration, such as notches  30 , and preferably comprises two notches, one corresponding to a normal switch position, and the other corresponding to a reverse switch position. 
         [0043]    A locking member, such as lock bar  32 , is positioned to engage the index plate  28 , and may be spring biased to remain engaged with the index plate  28 , or to force the lock bar  32  out of engagement with the index plate  28 . When the lock bar  32  engages either of two notches  30 , the index plate  28  cannot rotate. This also prevents the spindle  18  from rotating, and therefore prevents the throw handle  14  from being rotated, preventing the throw rod from being actuated and the switch points from being thrown. 
         [0044]    Lock bar  32  is moved in and out of engagement with the index plate  28  by operation of a handle member, such as lock handle  34  (see  FIG. 1 ), which protrudes from the enclosure  26 . Lock handle  34  (see  FIG. 1 ) is coupled to the lock bar  32  by any suitable means, such as a screw or bolt. As an additional safety feature, one or more shear bolts  36  may be used to couple the two assemblies. Shear bolt  36  is designed to fail if excessive force is applied to the lock handle  34 , as might be done in an attempt to defeat the locking mechanism of the switch stand  10 . Lock handle  34  is preferably made readily visible in order to allow an operator to easily determine the position of the lock. For example, the lock handle  34  may be somewhat large, or it may be painted a highly visible or luminous colour. In addition, the lock handle  34  preferably has at least two distinct positions, such as vertical and horizontal, so that an operator can easily visually verify whether it is locked or unlocked. 
         [0045]    As best seen in  FIG. 4 , a lock mechanism, such as lock core  38 , is preferably located near the lock handle  34 , and may be operated by a regular mechanical key or an electronic key (not shown). Lock core  38  is preferably located under an overhang  40  of the enclosure  26 , or under some other type of protective hood, in order to protect it from the elements and from tampering. The lock core  38  preferably retains an inserted key, by mechanical or electrical retention, as appropriate, at all times when the switch stand  10  is unlocked or when the switch points are in a mid-throw position. The lock core  38  preferably is in a locked state by default, such as by spring-bias means or magnetic means, such that the key can only be inserted or removed when the lock core  38  is locked. When the lock core  38  is in a locked state, a retractable stop member, such as lock core cam  42 , abuts the lock bar  32 , pressing it into the notch  30  and preventing it from moving out of contact with the index plate  28  unless lock core  38  is opened. This prevents unauthorized tampering with the switch points, and also prevents an operator from accidentally leaving the switch unlocked, unless he also leaves his key behind. 
         [0046]    Enclosure  26  further houses one or more sensors, which sense and provide information regarding the status of the switch and switch stand. In the preferred embodiment, a lock sensor, which may be a lock bar switch  44  ( FIG. 2 ), is in contact with the lock bar  32  via one or more contacts  46 , which provides an indication of whether the lock bar  32  is engaged or disengaged with the notch  30  in the index plate  28 . If the lock bar  32  is not engaged with one of the notches  30 , the contact  46  on the lock bar switch  44  will open, indicating that the switch is unlocked. 
         [0047]    A second sensor, such as directional switch  48  which determines the switch position, is also located in the enclosure  26 , in order to monitor the position of the index plate  28  as it rotates between the normal and reverse positions. The rotational position of the index plate  28  corresponds to the position of the railroad switch. Preferably, the directional switch  48  comprises at least two contacts  50 ,  52  ( FIG. 3 ), one of which is closed only when the railroad switch is in the normal position and the other of which is closed only when the railroad switch is in the reverse position. The pair of contacts provides two distinct signals, each of which can be correlated to a specific switch position. The contacts  50 ,  52  may be actuated by any suitable engagement with the index plate  28 , such as fitting into notches in the circumference of the index plate  28  or by coming into contact with teeth or other specifically selected contact areas on the index plate  28 . The signals produced by each of the lock bar switch  44  and the directional switch  48  are preferably provided to a remote monitor by an external notification system  54 . The external notification system may be of any type known in the art, including but not limited to, fixed wayside signals; analogue radio broadcasts to the crew on an oncoming train, which may be triggered by DTMF, or automatically as the train crosses sensors along the track; digital radio broadcasts to special devices in an oncoming train; and analogue or digital messages to a remote rail traffic control office. 
         [0048]    Because of the self-contained nature of the locking control and status indicator, and the relatively simple binary nature of the signals received from the lock bar switch  44  and the directional switch  48 , the invention is simple to operate and maintain. In particular, the invention is not subject to serious impact or vibrations from passing trains or otherwise during operation, and therefore does not require continuous adjustment throughout the lifetime of the device. 
         [0049]    The enclosure  26  can also be designed to accommodate additional equipment to enhance the functionality of the switch stand  10 . For example, a remote locking mechanism may be used in addition to the lock core cam  42 , to further secure the lock bar  32 . The remote locking mechanism, which may comprise a second lock bolt or any other means to immobilize the lock bar  32 , would preferably normally be engaged, preventing any manual actuation of the switch stand  10 . Upon receiving a command from a remote or local source, the remote locking mechanism would disengage from the lock bar  32 , allowing the switch stand  10  to be operated as described above. Upon completion of the switching operation, the remote locking mechanism would return to its normal default locked condition. 
         [0050]    The enclosure  26  may also be fitted with miniature communication equipment to allow two-way communications with the switch stand  10 . These communications may take any suitable form, such as conventional radio frequencies currently used by railways, commercial cellular phone systems or private satellite communications. 
         [0051]    A Global Positioning System receiver may also be incorporated into the enclosure  26 . This device would allow the switch stand  10  to distinguish its unique position in an area where several similarly fitted switch stands are operating. 
       Operation 
       [0052]    In operation, the switch stand  10  is initially locked and aligned to position the railway switch points to allow travel along a selected railroad route, in either the reverse or normal direction. An operator would insert his electronic or mechanical key into the lock core  38 , releasing the lock core cam  42  from its abutment with the lock bar  32 , thereby unlocking the switch stand  10 . A mechanical key would likely release the lock core cam  42  by rotating the key, while an electronic key could be rotated, or may send a signal to the lock core cam  42 , instructing it to release. At this stage, the lock bar switch  44  is open, indicating that the switch stand  10  is unlocked. Because the index plate is still in contact with one of the contacts  50 ,  52  in the directional switch  48 , the directional switch  48  will indicate that the switch is in the appropriate position, either reverse or normal. The external notification system  54  will consider these two readings in combination and will indicate that the turnout is unsafe for transit at track speed. 
         [0053]    The key is preferably retained by the lock core  38 , such as by mechanical, electrical magnetic or any other suitable means, and cannot be removed until the switch stand  10  is relocked. 
         [0054]    The operator actuates the lock handle  34 , which in turn frees the lock bar  32  from the notch  30  in the index plate  28 . This allows the index plate  28  to rotate freely. Upon pressing the foot latch  16 , the operator can move the throw handle  14  from its current position to the opposite position, e.g. clockwise, in  FIG. 1 . The spindle  18  rotates, moving the switch points and causing the index plate  28  to rotate. As the index plate  28  rotates, it breaks contact with the contact in the directional switch  48 , causing the directional switch  48  to indicate that the switch points are out of position, i.e. not in the reverse or normal position. The lock bar switch  44  is still open, indicating that the switch is unlocked. When these two readings are combined, the external notification system  54  will indicate that the turnout is unsafe for transit at track speed. 
         [0055]    If a secondary locking mechanism, such as a padlock on the foot latch  16 , is used, the operator would typically unlock and remove the padlock at any point prior to depressing the foot latch  16 . 
         [0056]    As the rotation of the throw handle  14  is completed, it will engage the opposite foot latch  16 , and the index plate  28  will complete its rotation, allowing the notch  30  to engage with lock bar  32 . The index plate  28  will also close the appropriate contact  50  or  52  in the directional switch  48 . The external notification system  54  will therefore signal that the switch is in the normal or reverse position, and that the switch is still unlocked, rendering the switch unsafe for transit at track speed. 
         [0057]    The operator then returns the lock handle  34  to its original position, engaging the lock bar  32  with notch  30 . The operator can then rotate his key to the original insertion position, if necessary, re-engaging the lock core cam  42  with the lock bar  32 , and forcing the lock bar  32  to remain within the notch  30 . The lock bar  32  then completes the circuit with the contacts  46  of the lock bar switch  44 , so the lock bar switch  44  can indicate that the switch is locked. The external notification system  54  can therefore signal the remote monitor that the switch is in the normal or reverse position and that the switch is locked, so that it is safe for transit. These indications reassure the operator and the remote monitor that the switch is in a proper position and is secure against tampering or operator negligence. 
         [0058]    If a secondary locking mechanism, such as a padlock on the foot latch  16 , is used, the operator would preferably reattach and lock the padlock on to the foot latch  16  holding the throw handle  14 . The switch is then further secured against tampering. 
         [0059]    It will be appreciated by those skilled in the art that other variations to the preferred embodiment described herein may be practised without departing from the scope of the invention, such scope being properly defined by the following claims.