AU708405B2 - Rail gauge face lubricating apparatus - Google Patents

Description

WO 96/33085 PCT/AU96/00228 -1-

TITLE

"RAIL GAUGE FACE LUBRICATING

APPARATUS"

FIELD OF THE INVENTION The present invention relates to a rail gauge face lubricating apparatus. More particularly, the rail gauge face lubricating apparatus of the present invention is intended to allow the accurate and controlled delivery of lubricant to a rail gauge face.

DISCUSSION OF THE PRIOR ART Lubricating devices for minimising both the wear of wheel flanges and rails and the generation of noise thereby have typically involved the periodic application of a lubricant spray to the flange of a wheel. The lubricant spray is generally produced by way of a combination of compressed air and lubricant. There are a number of problems associated with such a system. Not all lubricant is transferred to the point of flange/rail contact. The use of a spray of lubricant often results in lubricant spraying over more than just the wheel flange as it is the nature of a spray to fan out from the spray nozzle.

Most known lubricating apparatus allow the periodic application of lubricant whereas it is desirable that lubricant be applied only when needed, for example when a rail car is travelling around a curve and the flange/rail contact is greatest.

BRIEF DESCRIPTION OF THE INVENTION In accordance with the present invention there is provided a rail gauge face lubricating apparatus characterised by a delivery means for delivering lubricant to the rail head and a pump means for producing a pressure to deliver lubricant to the delivery means, the delivery means comprising in part an actuable flow ~Y1131 I PCAt96 00228 RECEIVED O 4 FEB 1997 -2means governing the delivery of lubricant through the delivery means, wherein the actuable flow means of the delivery means is able to be influenced by a sensing means able to detect the position of a bogey of a rail vehicle relative to the remainder of the rail vehicle whereby upon the rail vehicle moving through a curve, turn or corner an amount of lubricant is delivered to the rail gauge face of the rail head, the sensing means comprising two members pivotally mounted to the underside of the rail vehicle having first ends thereof positioned with respect to one another And having second ends thereof mounted to the bogey of the vehicle, the first ends of the members being arranged so that relative movement therebetween is detected, that movement in turn directly or indirectly resulting in the actuation of the flow means of the delivery means.

The actuable flow means preferably comprises a piston member having a head and rod. The piston member may be maintained such that the actuable flow means is in a closed state through action of an air pressure directed to the head thereof. The sensing means is preferably capable of influencing the direction of the air pressure to the head of the piston member such that lubricant is delivered through the actuable flow means.

The present invention further provides a positioning means characterised by two cylinders in fluid communication each having a single member extending therethrough dividing each cylinder into first and second compartments, each member being moveable within its cylinder, the first compartment of one cylinder being in fluid communication with the second compartment of the other cylinder and the second compartment of the first cylinder being in fluid communication with the first compartment of the other cylinder whereby movement of the member relative to the cylinder through which it passes produces a consequent movement in the member of the other cylinder, the upper end of the member of one cylinder being mounted on a bogey of a rail vehicle and its lower end having provided thereon a delivery means for application of lubricant to a rail gauge face of a rail head.

AMENDED

SHEET

tIJ IPEA/Ato -r 1T -3- Preferably, the fluid communication between the compartments of the cylinders is provided with means for adjusting the volume of fluid held in the compartments interconnected thereby.

The present invention still further provides a method for the consistent and accurate application of lubricant to a rail gauge face wherein there is provided a delivery means for delivery of lubricant to a rail head and a pump means for producing a pressure to deliver the lubricant to the delivery means, the method being characterised by the steps of: detecting relative movement between two members of a sensing means, the members having one end thereof positioned with respect to one another and having second ends thereof mounted to a bogey of a rail vehicle; and the sensing means influencing an actuable flow means to cause delivery of lubricant to the rail gauge face upon the sensing means detecting movement of the rail vehicle through a curve, turn or corner.

DESCRIPTION OF THE DRAWINGS :The present invention will now be described, by way of example only, with reference to two embodiments thereof and the accompanying drawings, in which:- Figure 1 is a schematic diagram of a rail gauge face lubricating apparatus in accordance with one embodiment of the present invention; Figure 2 is a schematic cross-sectional view of a positioning means in accordance with a second embodiment of the present invention; Figure 3 is a lower perspective view of a rail carriage to which rail gauge face lubricating apparatus of Figure 1 and positioning means of Figure 2 have been fitted; I 3/1 Figure 4 is a second lower perspective view of the apparatus of Figure 1, positioning means of Figure 1 and a sensing means, each in position on the rail carriage of Figure 3; S S S

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~111 1_ WO 96/33085 PCT/AU96/00228 -4- Figure 5 is a lower perspective view of a second cylinder of the positioning means having a delivery means actuable flow means and nozzle provided thereon; Figure 6 is a cross-sectional side view of the first cylinder of Figure Figure 7 is a cross-sectional side view of a second cylinder of the positioning means of Figure 2; Figure 8 is a cross-sectional side view of a nozzle for use on the deliver means of Figure Figure 9 is a cross-sectional side view of a nozzle for use on the delivery means of Figure Figure 10 is a cross-sectional side view of a nozzle for use on the delivery means of Figure Figure 11 is a cross-sectional side view of the delivery means of Figure and Figure 12 is a lower perspective view of a sensing means of the apparatus of Figure 1.

DESCRIPTION

In Figure 1 there is shown a rail gauge face lubricating apparatus 10 comprising in part a pair of delivery means, for example valves 12 and a single pump means 14. The pump means 14 may be electric, hydraulic or pneumatic and has a motor 16 associated therewith. The pump means 14 and the valves 12 are interconnected by a fluid line 18 whereby pressure on the fluid in the fluid line 18 is transferable to each valve 12. The fluid line 18 bifurcates into two branches each branch 20 extending to one valve 12.

1 WO 96/33085 PCT/AU96/00228 The fluid line 18 has provided therein a differential pressure switch 22 having the ability to start and stop the motor 16 driving the pump means 14. In this manner a desired pressure range may be maintained in the fluid line 18. It is envisaged also that an accumulator 24 may be provide din the fluid line 18 so as to maintain a more accurate pressure in the fluid line 18. A gauge 26 is provided in the fluid line 18 to allow ready determination of the pressure of the fluid therein.

Typically a lubricating grease will be the fluid or lubricant provided in the supply line, although oil, a water and glycol mixture or other suitable fluid may be utilised.

An air intake means 28 is provided at the beginning of an air supply line 30 that also bifurcates into two branches 32. Each of the two branches 32 lead to a valve 12 and each has a solenoid valve 34 provided inline. The line 30 has an isolation valve 36 located therein also.

It is envisaged that the pressure switch 22 may be replaced with two pressure switches, one in each branch 20, or a single analogue pressure switch.

The valves 12 are each provided in direct connection with a positioning means 38, best seen in Figures 2 and 5 to 7, governing the position of the valve 12 relative to an inner rail gauge face of a rail head 40. The rail heads 40 form a portion of the rail pair that form the rail track.

A programmable logic controller (PLC) is provided governing the operation of the solenoid valves 34, the motor 16, the differential pressure switch 22 and a sensing means 42 (best seen in Figures 4 and 12) provided to detect when a rail vehicle to which the apparatus 10 is fitted is travelling around a curve. The PLC performs the function of monitoring the entire apparatus 10. For example, the PLC can detect low fluid levels in the fluid/grease reservoir for the pump 14 which may be caused through leakages in the lines 18 and 20. Further, the PLC could shut one branch of the apparatus down if a breakage occurs in that branch with for example a nozzle (discussed later) being lost. The connection of the I a WO 96/33085 PCT/AU96/00228 -6- PLC to a wheel tachometer would allow the application of fluid by distance rather than time.

Further, the PLC is able to determine, in combination with the sensing means 42 which rail's rail gauge face is to have lubricant applied thereto. For example, in a right hand curve it is appropriate to apply lubricant to the left hand rail gauge face. The PLC may be modified to allow delivery of lubricant on tangent tracks.

In Figures 2 and 4 to 7 there is shown the positioning means 38 comprising in part a first sealed cylinder 46 having an elongate member 48 passing therethrough and by way of an intermediate flange 50 provided thereabout dividing the cylinder 46 into a first compartment 52 and a second compartment 54. The member 48 is fixedly attached at a lower end 56 thereof to a point 57 on the suspension system of a rail vehicle 58 (shown in Figure 3) and the cylinder 46 is attached thereto at another point 59 whereby when the vehicle is loaded and unloaded the member 48 moves relative to the cylinder 46 thereby altering the volume of the compartments 52 and 54.

The positioning means 44 further comprises a second sealed cylinder 60 having an elongate hollow member 62 having an elongate hollow member 62 extending therethrough and by way of an intermediate flange 64 dividing the cylinder into a first compartment 66 and a second compartment 68. A lower end 70 of the member 62 is fixedly and adjustably attached to the valve 12. An upper end 72 of the member 62 has provided thereabout a collar 74 to limit the travel of the member 62 through the cylinder 60 is supported on a bogey 76 of the rail vehicle 58, as is seen in Figures 3 and 4.

A fluid line 78 is provided connecting compartments 52 and 68 whereas a fluid line 80 is provided connecting compartments 54 and 66. Each line 78 and has provided therein one or more bleed valves 82.

In Figures 6 and 11 there is shown a valve 12 comprising an outer housing 84 and an inner cylinder bore 86. The bore 86 defines an area 88 of wide diameter

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WO 96/33085 PCT/AU96/00228 -7and an area 90 of comparatively narrow diameter in which a rigidly interconnected piston head 92 and rod 94 are located respectively. The head 92 and rod 94 together provide a piston member. A seal 96 is provided between the head 92 and internal walls 98 of the area 88. An inlet 100 for the branches 32 of the air supply line 30 opens into the area 88. An inlet 102 for a branch 20 of the fluid line 18 is provided into the area The rod 94 has a lower end 104 provided with a bevelled surface which acts to engage a shoulder or seat 106 in the area 90. From the area 90 an outlet 108 is located through the seat 106 whereby movement of the rod 94 into and out of engagement with the seat 106 controls fluid flow from the inlet 102 to and from the outlet 108.

A nozzle 110 is provided in engagement with the valve 12 adjacent the outlet 108 such that fluid flow therefrom will pass through the nozzle 110. The nozzle 110 has provided thereon a threaded spigot 112 allowing attachment to a complimentary thread on the outlet 108 of the valve 12 and through which fluid is transferred to the rail gauge face of the rail head 40. A variety of nozzles 114, 116, and 118 are shown in Figures 8, 9, and 10 and like numerals denote like parts. Each nozzle 110, 114, 116 and 118 has a passage 120 provided therein for the passage of lubricating fluid. The fluid is preferably projected from the nozzles 110, 114, 116 and 118 as a stream rather than a spray. Nozzle 114 preferably has a terminal portion 121 of the passage 120 provided at approximately 720 to the vertical (as opposed to 900 as shown in nozzles 116 and 118). This causes the nozzle 114 to project a stream of lubricant that Impinges upon the rail gauge face of the rail head 40 at an acute angle and spreads downwardly only, rather than spreading upwardly also (as is seen when the stream hits the face at 900) which can cause some lubricant to spread to an upper face of the rail head 40. The terminal portion 121 of the passage 120 preferably is drilled to about 0.5 ml to 1.0 ml diameter. This ensures maintenance of a back pressure in the fluid line 18 thereby preventing rapid loss of pressure.

II I I I I WO 96/33085 PCT/AU96/00228 -8- The sensing means 42 comprises two members 122 and 124 pivotally mounted at points 126 and 128, respectively to a base mounting member 130 as is best seen in Figure 12. The points 126 and 128 are intermediate the ends of the members 122 and 124. The member 122 has a first end 132 pivotally mounted by way of a guide bar 134 to the bogey 76 on which the rail vehicle 58 is supported. A second end 136 of the member 122 is provided with a U-shaped member 138 having a proximity switch 140 located on each arm thereof. The proximity switches 140 are linked electrically to the PLC.

The member 124 has a first end 142 pivotally mounted indirectly to the bogey 76 by way of a guide bar 144 whilst a second end 146 has provided thereat a wider U-shaped member 148 than the member 138. The members 138 and 148 are positioned in different lateral planes allowing at least a portion of the member 148 to pass over some or all of the member 138 and the switches 140 upon turning of the bogey 76 relative to the remainder of the rail vehicle 58.

In use, upon varying of a load carried by the rail vehicle 58 the suspension of that vehicle will adjust accordingly whereby the elongate member 48 will move with respect to the first cylinder 46 thereby producing a consequent movement in the elongate member 62 in the cylinder 60 through transfer of fluid between the compartments thereof. For example, if a greater load was applied to the rail vehicle 58 then the elongate members 48 will move upwardly with respect to the cylinder 46 and the volume of the second compartment 54 will decrease thereby forcing fluid through the fluid line 80 to the first compartment 66 of the cylinder This reduces a consequent movement in the elongate member 62 thereby adjusting the position of the valve 12 affixed to the lower end 70 of the elongate member 62. The interaction of the cylinders 46 and 60 and the resultant positioning of the valve 12 with respect to the rail gauge face of the rail head is shown clearly in Figure 4.

It is important to note that the volume of the cylinders 46 and 60 is provided in a predetermined ratio, as the volume or magnitude of movement in the elongate member 48 caused by loading or unloading of the rail vehicle 58 will typically not III I I I I WO 96/33085 PCT/AU96/00228 -9be of the same magnitude required in the elongate member 62 to adjust the positioning of the valve 12 connected thereto with respect to the rail gauge face of the rail head 40. Further, the bleed valves 82 provided in the fluid lines 78 and allow the purging of the compartments 52, 54, 66 and 68 and allow adjustment of the fluid levels therein so as to allow accurate setting of the positioning means 38. A threaded rod running through the hollow elongate member 62 allows the adjustment of the height of the valve 12 and the collar 74 provided about the upper end of the elongate member 62 ensures there is a maximum volume or magnitude of downward movement of the elongate member 62 so as to not damage the valve 12 located thereon.

A pressure of between 150 and 300 bar is maintained in the fluid line 18 through the interaction of the pump 14, the motor 16, the differential pressure switch 22 and the PLC. The pressure switch 22 detects when the pressure of the fluid in the fluid line 18 reaches either of the extremes and causes the motor 16 to either stop or actuate the pump 14. The pressure in the fluid line 18 is able to be readily determined by way of the pressure gauge 26.

The air supply line 30 delivers an air pressure through the branches 32 thereof into the area 88 of the valve 12. The air pressure acts upon the broad head 92 of the piston thereby preventing passage of fluid into the fluid inlet 102 and through the outlet 108 whereby it could have been delivered to the rail gauge face of the rail head 40. The solenoid valves 34 provided in the branches 32 of the air supply line 32 may be caused to close by the PLC if the PLC is provided with an appropriate signal from the sensing means 42. The sensing means 42 may provide such a signal from one or both of the proximity switches 140 if the position of the bogey 76 of the rail vehicle 58 changes relative to that rail vehicle 58 upon which the base mounting member 130 is located. The closing of the solenoid valves 34 allows the pressure maintained in the fluid line 18 to cause the movement of the rod 94 of the piston upwardly thereby opening the fluid inlet 102 allowing fluid to flow therethrough and out the fluid outlet 108 into the nozzle 120 attached thereto. Upon the signal from the sensing means 42 no longer 1 WO 96/33085 PCT/AU96/00228 being received by the PLC, such will again open the solenoid valves 34 thereby allowing the air pressure to again act on the broad head 92 of the piston in the valves 12. It is important to note that the fluid delivery from the fluid outlet 108 is airless and delivers only the lubricant at the predetermined rate. The area 88 of the inner cylinder bore 86 also has located therein an air vent allowing the movement of the broad head 92 of the piston.

It is envisaged that the valves 12 may be alternatively actuated by a different form of fluid or by electrical means in the form of a solenoid valve. It is further envisaged that the sensing means 42 may produce a signal from optical, pneumatic or hydraulic means and derivatives thereof. Further, electrical switching utilising switches other than the proximity switches 140 is envisaged to fall within the scope of the present invention.

Importantly, the rail gauge face lubricating apparatus of the present invention allows automatic adjustment of the position of the lubricant delivery means, being the valve 12, relative to the bogey 76 such that it will maintain a constant position in relation to the rail gauge face of the rail head 40 under all loading conditions of the rail vehicle 58. As such, irrespective of the load being carried by the rail vehicle 58 the nozzles will apply lubricant to the same position on the rail gauge face of the rail head The particular structure of the sensing means 42 of the present invention allows limited forward and rearward movement of the bogey 76 with respect to the rail vehicle 58 without switching of the proximity switches 140. Such an arrangement is advantageous and necessary so as to prevent switching upon the common minor forward and rearward movements of the bogey 76 with respect to the rail vehicle 58 as are commonly experienced.

Modifications and variations such as would be apparent to the skilled addressee are considered to fall within the scope of the present invention.

Claims (14)

1. A rail gauge face lubricating apparatus characterised by a delivery means for delivering lubricant to the rail head and a pump means for producing a pressure to deliver lubricant to the delivery means, the delivery means comprising in part an actuable flow means governing the delivery of lubricant through the delivery means, wherein the actuable flow means of the delivery means is able to be influenced by a sensing means able to detect the position of a bogey of a rail vehicle relative to the remainder of the rail vehicle whereby upon the rail vehicle moving through a curve, turn or corner an amount of lubricant is delivered to the rail head, the sensing means comprising two members pivotally mounted to an underside of the rail vehicle having first ends thereof positioned with respect to one another and having second ends thereof mounted to the bogey of the vehicle, the first ends of the members being arranged so that relative movement therebetween is detected, that movement in turn directly or indirectly resulting in the actuation of the flow means of the delivery means.

2. A rail gauge face lubricating apparatus according to claim 1, characterised in that the rail vehicle is supported on a pair of rails and wherein the rail gauge face of each rail is provided with a delivery means, the sensing means being able to determine which rail requires lubricant delivery upon the rail vehicle traversing a curve, turn or corner.

3. A rail gauge face lubricating apparatus according to claim 1 or 2, characterised by the overlying ends of the members are provided with electrical, optical, pneumatic or hydraulic switching means located thereon.

4. A rail gauge face lubricating apparatus according to claim 3, characterised by the overlying ends having provided thereon electrical proximity switches to detect movement of one member with respect to the other.

C) RA.- (c.1 SAMENDED SHEET IPEAAU 'VT RECEIVED 0 4 FEB 1997 -12- A rail gauge face lubricating apparatus according to any one of the preceding claims, characterised such that the second ends of the members are mounted to the bogey indirectly by way of guide bars attaching thereto a point remote from the member thereby allowing a degree of forward and rearward movement in the bogey relative to the rail vehicle without triggering of the switching means.

6. A rail gauge face lubricating apparatus according to claim 4 or characterised in that the overlying ends of the members are each provided with a U-shaped member, one being of a greater width than the other and the proximity switches being located in pairs on the U-shaped members.

7. A rail gauge face lubricating apparatus according to any one of the preceding claims, characterised in that the actuable flow means comprises a piston member having a head and rod, the head having an air pressure applied thereto to hold the flow means in a closed state thereby restricting the flow of lubricating fluid.

8. A rail gauge face lubricating apparatus according to claim 7, characterised by the actuable flow means forms a part of a valve means.

9. A rail gauge face lubricating apparatus according to claims 7 or 8, characterised in that the sensing means is able to influence the direction of the air pressure to the head of the piston member such that lubricant is delivered through the actuable flow means.

A rail gauge face lubricating apparatus according to claim 9, characterised by the lubricant being delivered from a nozzle attached to the valve means in a stream.

11. A rail gauge face lubricating apparatus according to claim 9, characterised by the lubricant being delivered to the rail gauge face at an acute angle thereto. SAMENDED SHEET 11 IPEA/AU *7- i~i l j -13-

12.A method for the consistent and accurate application of lubricant to a rail gauge face wherein there is provided a delivery means for delivery of lubricant to a rail head and a pump means for producing a pressure to deliver the lubricant to the delivery means, the method being characterised by the steps of: detecting relative movement between two members of a sensing means, the members having one end thereof positioned with respect to one another and having second ends thereof mounted to a bogey of a rail vehicle; the sensing means influencing an actuable flow means to cause delivery of lubricant to the rail gauge face upon the sensing means detecting S: movement of the rail vehicle through a curve, turn or corner. o°

13.A rail gauge face lubricating apparatus substantially as hereinbefore S i: described with reference to the accompanying drawings. a 15

14.A method for the consistent and accurate application of lubricant to a rail gauge face substantially as hereinbefore described with reference to the accompanying drawings. I