NL2019080B1 - Repair in the work of a defect in a rail. - Google Patents

Abstract

Repair in the work of a defect (15) in a rail (10) comprising removing the rail head (14) from the top surface (50). of a piece of rail head so that the rail web (13), the rail foot (12) and the lower part of the rail head (14) remain unaffected, so that a recess (20) terminating at its upper surface is formed in the rail head, and it is prefabricated with a prefabricated, form-retaining, tight-fitting, steel plug filling the recess, the shape of the recess and of the plug being congruent, to restore the original geometry of the rail.

Description

2019080

Netherlands Patent Office (21) Application number: 2019080 © Application filed: 15 June 2017 © BI PATENT (51) Int. CL:

E01B 31/18 (2017.01)

© Priority: © Patent holder (s): 16 June 2016 NL 2016983 VolkerRail Nederland B.V. in Vianen. (4 ^ Request registered: © Inventor (s): December 21, 2017 Thomas Arts in Vianen. Henrie van Buuren in Vianen. © Request published: January 4, 2018 © Authorized representative: © Patent granted: ir. J.H.W. Assendelft in Lisse. September 28, 2018 © Patent issued: January 9, 2019

Repair in the work of a defect in a rail.

N) Repair in the work of a defect (15) in a rail (10) comprising removing a piece of rail head from the top surface (50) of the rail head (14) so that the rail web (13), the rail foot (12) and the lower part of the rail head (14) remains unaffected, so that a recess (20) leading to its upper surface is formed in the rail head, and filling the recess with a prefabricated, form-retaining, tight-fitting steel plug, the shape of the recess and of the plug is congruent, to restore the original geometry of the rail.

NL Bl 2019080

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent differs from the documents originally submitted.

All submitted documents can be viewed at the Netherlands Patent Office.

Repair in the work of a defect in a rail.

This invention relates to a method of repairing a mechanical defect in a rail of an existing train track for passenger or freight transport with two parallel steel rails for train traffic. The invention can optionally be applied to crane track rail.

It is known from WO2011119238A1 to remove a wedge-shaped piece from the rail located in the train track, such that the rail foot and the lower part of the rail web remain unaffected and the rail head and the upper part of the rail web are completely removed over a length and subsequently to be filled by an identical, prefabricated, dimensionally stable and wedge-shaped plug made of steel that is permanently welded to the surrounding rail to restore the rail's original geometry. The steel type and hardness of the plug and the rail to be repaired are the same.

US-A-619013 (published 1899) discloses the prevention, in the vicinity of a dilatation joint in the rail and at a fixed distance thereof in the longitudinal direction of the rail, placing a prefabricated, cylindrical, smooth-walled plug of metal harder than the rail itself, to absorb blows from the train wheels in the vicinity of expansion joints in the rail. The distance to the dilatation joint is not mentioned in this document and is probably within 25 cm of the dilatation joint because the folding of the train wheels also occurs within this distance.

In the broadest sense, we dare to define our invention as follows: removing from the top surface (i.e. the running surface) the rail head of a rail located in the train track, which is preferably suitable for immediate re-commissioning, rail head so that the rail web and the rail foot, and possibly the lower part of the rail head, remain unaffected, so that a recess opening at its upper surface is created in the rail head, preferably located at a distance (preferably of at least 10 mm) from the sides of the rail head (so that the sides of the rail head remain unaffected), and filling the recess with a prefabricated, form-retaining, preferably tight-fitting, steel plug, whereby preferably the shape of the recess and of the plug is congruent, so as to maintain the original geometry of the rail.

With a train track suitable for immediate re-commissioning, the train track is maintained in the connection following for its connection, and after assembly it is repaired.

The hole is degrees different from the vertical.

safe substrate and foregoing and a welded particularly intended that, in the operational state, for example, its mounting on the track by welded or jointless track, so that, for example, before, during and a rail remains, train traffic necessary on the rail, such as when remaining during the repair of the damaged rail is substantially identical.

preferably vertical or maximum 10

Preferably, prior to removing the rail head piece, an inspection is performed on the rail to detect mechanical damage, e.g., squat, and the repair is performed at the location of the determined damage. To detect the damage, for example, a measuring or inspection means is used, for example a scanner (for example equipped with a light source such as laser) or an image camera or with a magnetic field or electric or acoustic field or other field operating on board, for example. a vehicle, such as a measurement train.

The location of the repair in the longitudinal direction of the track will as a rule be random and, for example, dependent on the result of a damage detection. The distance in rail lengthwise direction will therefore be variable with respect to a dilatation joint. A repair according to the invention can also be found further than 25 cm from the expansion joint, for example further than 50 or 100 or or 150 or 200 cm.

It should be clear that repairs are preferably carried out until damage occurs, which usually only occurs after the track has been in use for some time, for example at least a month or a year or two years or five years. The damage is mainly caused by train traffic that runs over the rail.

According to a preferred embodiment of our invention, a piece of a steel rail located in the train track is removed from the upper part of the rail head so that a hole is created in the driving surface, while the lower part of the rail head, the rail web and the rail foot remain unaffected. The hole is then filled with a prefabricated, close-fitting and form-retaining steel plug that is permanently secured to the surrounding material of the rail head in order to restore the original geometry of the rail. The fixing preferably relates to a clamp fit, for example because the plug is in a shrunken state, for example because it is considerably colder, for example at least 50 or 100 or 150 degrees Celsius colder (for example cooled by liquid CO2 or N2 or O2), then the fixable rail is placed in the hole.

If in a shrunken state, the plug with a diameter equal to or slightly smaller than the hole diameter is placed in the hole, after which the plug is allowed to expand, for example because the plug heats up to the temperature of the rail head, so that the plug diameter attempts to increase and thus the plug gets stuck in the hole.

Alternatively, the plug is placed unshrunk, the plug diameter initially being larger than the hole diameter and being forced to decrease in diameter by driving into the hole through the hole wall.

An effect which the invention is likely to use is that the bicycles of a passing train locally knead the steel in the upper layer of the top surface of the rail head in the contact area between the tread of the bicycle and the rail head, so that the plug and the material placed of the rail head around it are cold plastically deformed and thus melt together cold. Thus, the plug will increasingly fit into the hole and all cracks between the hole and the plug will gradually close. It is therefore sufficient to place a form-retaining plug in a form-retaining hole without using form-free auxiliary material such as adhesive or molten steel for a durable, corrosion-resistant fixation of the plug in the hole.

For the plug, one or more of the following applies: cylindrical or parallelepipedic; height greater than 5 or 10 mm and / or less than 30 or 20 or 15 mm; diameter larger than 5 or 10 mm and / or smaller than 40 or 30 or 25 mm; adjacent sides are perpendicular to each other; an axial taper of at most 3, 2 or 1 degree; of an alloy substantially identical to that of the rail head; one or more of tensile strength, yield point, elongation at break and hardness substantially equal to or greater than that of the rail head; flat bottom and / or top; contains one or more of Fe, Cr, Mn, Si.

For the hole, one or more of the following applies: cylindrical or parallelepipedic; depth greater than 5 or 10 mm and / or less than 30 or 20 or 15 mm; depth less than 50% of the height of the rail head; diameter larger than 5 or 10 mm and / or smaller than 40 or 30 or 25 mm; diameter less than 50% of the width of the rail head; adjacent sides are perpendicular to each other; an axial taper of at most 3, 2 or 1 degree; at least 10 or 15 or 20 mm away from the sides of the rail head; is located in the contact area between the running or running surface of the train's bicycles and the top surface of the rail head; made by spark machining or drilling or milling or another machining operation, preferably milling with a milling tool to create a flat hole bottom and after milling the hole bottom and wall does not have the quality, in particular the accuracy of one or more of roundness, depth and undergoes diameter of the hole improving mechanical operation with a tool and / or with a cutter whose diameter is equal to the hole diameter; made with a milling cutter or not; in depth and / or diameter smaller than that of the plug at the same temperature, preferably at least 0.005 mm at 20 degrees Celsius; flat hole bottom.

The shape of the hole and the plug are preferably adapted to each other such that with plug placed in the hole, the bottom and / or side walls of hole and plug make large contact with each other.

It is preferably ensured that after the insertion of the plug is completed, the top surface of the plug protrudes slightly above the top (the top is the running surface) of the rail head, preferably at least 0.05 and / or less than 0.1 mm, and then the top surface of the plug is lowered by a machining operation such as grinding or sanding so that the top surface of the plug comes flush with the top surface of the rail head.

In an alternative, it is conceivable that the plug lies recessed into the hole and after the plug has been placed, liquid steel is poured onto the plug into the hole so that the floor above the plug is completely filled with initially form-free steel.

For example, the plug is driven into the hole by hammering or pressing.

This repair is particularly suitable for so-called squats. A squat or other damage to the road surface is detected at the rail of the railway being put into operation, is removed by making the hole with a diameter and depth so that the damaged area is completely removed, then the hole is filled with the plug.

This repair is primarily intended for one or more of: welded-on or joint-free track; rail arch; switch, for example, point or stop rail or tongue.

This repair is primarily intended for a rail with one of the following steel alloys: manganese steel; Hadfield steel; rail in accordance with NEN-EN 13674-1 and / or ProRail RLN00127-1; steel with, in addition to one or more optional other elements, components and / or impurities, Fe (iron) and one or more of: C (carbon); Si (silicon; Mn (manganese); Cr (chromium).

The hardness (Brinell) of the rail head and / or the running surface is preferably at least 200 or 220 or 250 or 260 or 300 or 320 or 350 or 370 or 375 or 400. The rail may be heat-treated.

Preferred amounts (in% by weight) present in the steel are as follows: Fe is the main component, for example at least 50% or 80%. C: a minimum of 0.3 or 0.4 or 0.5 or 0.6 or 0.7 or 0.9 and / or a maximum of 0.6 or 0.8 or 1 or 1.1 or 1.2 or 1, 3 or 1.5. Si: a minimum of 0.1 or 0.15 or 0.2 or 0.4 or 0.5 and / or a maximum of 0.6 or 0.8 or 1 or 1.1 or 1.2 or 1.5. Mn: at least 0.1 or 0.5 or 0.7 or 0.8 or 1 or 1.3 and / or at most 1.1 or 1.2 or 1.3 or 1.7 or 2. Cr: at least 0 , 1 or 0.2 or 0.4 or 0.8 and / or a maximum of 0.15 or 0.3 or 0.6 or 1.2 or 1.5 or 2.

The rail to be repaired is, for example, of Vignole type or Groove rail type, for example UIC54 or UIC60 or S33 or EB63 or MRS73 or PRI85 and / or has a weight of at least 40 or 45 or 50 kilos per linear meter. The repair is carried out, for example, on joint-free track and / or track for which the neutral temperature is between 20 and 27, for example 23, 24, 25 or 26 degrees Celsius.

0.40-0.60 Ö, 15-0.58 070’1.20 max. 0.15 0.50-0.60 0.20-0.60 1.00-1.25 0.807.20 0.62-0.80 0.15-0.60 1.30-1.70 max. 0.30 0.55-0.75 6.50-1.10 0.80Ί.20 0.40Ό.60 0.60-0.80 0.40-1.00 070-tC : max. 0.60 0.72-0.80 max. 0.80 0.80-1.10 Lrnax. 0.30 0.70-0.82 1.00-1.30 0.72-0.82 0.00-1.05

This table gives examples of preferred ranges for the elements C, Si, Mn and Cr in% by weight, all combinations and permutations are possible. For example,% C0.62-0.80 combined with% Si0.20-0.6 (3, no Mn and Cr.

The invention is explained below with reference to an example shown in the drawing. Other embodiments are also part of the invention. Shown is:

FIG. 1 in side view a rail with defect

FIG. 2 shows the section II-II of fig. 1

FIG. 3 the hole in the rail in side view;

FIG. 4 in perspective the rail with defect;

FIG. 5 the rail of fig. 4 with: the: hole ;:

FIG. 6 has repaired the rail of fig. 1.

The rail 10 has a foot 12, body 13 and head 14. The head 14! contains a squat 15 caused by the train wheels. A vertical hole 20 is milled from the tread 50 at the location of the squat 15 (Fig. 3).

The defect 15 is located, removed so that a cylindrical hole 20 is created, a precisely fitting slightly upwardly extending plug 21 is placed in the hole, the top of the plug is machined with a tool 120 (Fig. 6) so that a smooth running surface is created .

FIG. 3 shows, in broken lines, the wedge-shaped repair described in WO2011119238A1, which extends through the entire rail head and extends into the rail web. This clearly shows the difference with our invention.

FIG. 3 also shows a cross-sectional side view of a detail of the rail head to show the purely cylindrical shape of the hole.

Claims (29)

CONCLUSIONS A method of performing a repair in the work of a defect (15) in a rail comprising removing a piece of rail head from the top surface of the rail head (14) so that the rail web (13) and the rail foot (12) , and optionally the lower part of the rail head remain unaffected, so that in the rail head a recess (20) leading to its top surface is prefabricated, form-retaining, steel plug filling the original geometry of, and filling with a preferably closely fitting, recess thus repairing the rail. Repair method according to claim 1, wherein it is ensured that the recess (20) is situated at a distance from the sides of the rail head, so that the sides of the rail head remain unaffected. The repair method according to claim 2, wherein said distance is at least 10 millimeters. The repair method according to claim 1, 2 or 3, wherein the shape of the recess (20) and of the plug is congruent. The repair method according to any of claims 1-4, wherein the piece of rail head that is being removed contains a damage, such as a crack or a squat. A repair method according to any one of claims 1-5, wherein the piece of rail head is at a location determined by an inspection of the rail head prior to repair, preferably by a measuring or inspection means moving along the track. Repair method according to one of claims 1-6, applied to welded-on or joint-free track. 8. Repair work according to a from the conclusions 1- -7, and the recess becomes in the tread from the train wheels made. 9. Repair work method according to a from the conclusions 1- -8, waa as a recess (20) one blind hole is made 10. Repair work according to a from the conclusions 1- 9 wherein after placing the plug, the top surface of the plug protrudes slightly above the top surface (50) of the rail head (14), preferably a minimum of 0.05 and / or a maximum of 0.1 millimeter. The repair method of claim 10, wherein the top surface of the plug is lowered by machining so that the top surface of the plug becomes flush with the top surface (50) of the rail head (14). The repair method according to any of claims 1-11, wherein the recess (20) is made in the running surface of the train wheels. The repair method according to any of claims 1-12, wherein prior to making the recess (20) an inspection is performed on the rail (10) for detecting a mechanical damage thereto, such as a squat. The repair method according to any of claims 1-13, wherein the repair is carried out at the location of the damage. A repair method according to any one of claims 1-14, wherein for measuring the damage (15) a measuring or inspection means is used, such as a scanner, or an image camera, or which operates with a magnetic field or electric or acoustic field or other field. , for example present on board a vehicle, such as a measurement train, The repair method of claim 15, wherein the scanner is equipped with a light source such as a laser. The repair method according to any of claims 1-16, wherein the recess (20) is filled with a plug that permanently adheres to the surrounding material of the rail head (14). The repair method according to any one of claims 1-17, wherein it is ensured that the plug with clamp fit fits into the recess (20). The repair method according to any of claims 1-18, wherein the plug is placed in a shrunken state, for example in that it is considerably colder than the rail to be repaired. The repair method of claim 19, wherein the plug is at least 50 or 100 or 150 degrees Celsius colder than the rail to be repaired. The repair method according to claim 19 or 20, wherein the plug is or has been cooled by liquid CO2 or N2 or O2. The repair method according to any of claims 19- 21, while in the temporarily shrunken state, the plug is placed in the hole (20) and allowed to expand, for example, by heating to the temperature of the rail head so that the plug attempts to increase in diameter and is thus clamped in the recess (20). The repair method according to any of claims 1-22, wherein one or more of the following applies to the plug: a cylindrical or parallelepipedic shape; a height greater than 5 or 10 millimeters and / or less than 30 or 20 or 15 millimeters; a diameter larger than 5 or 10 millimeters and / or smaller than 40 or 30 or 25 millimeters; adjacent edges are perpendicular to each other; an axial taper of no more than 3, 2 or 1 degree; of an alloy at least substantially identical to that of the rail head; one or more of tensile strength, strain strength, elongation at break and hardness at least substantially equal to or higher than that of the rail head; flat top / or bottom; contains one or more of Fe, Cr, Mn, Si. The repair method according to any of claims 1-23, wherein one or more of the following applies to the recess (20): a cylindrical or parallelepipedic shape; a depth greater than 5 or 10 mm and / or less than 30 or 20 or 15 mm; a depth of less than 50% of the height of the rail head (14); a diameter larger than 5 or 10 mm and / or smaller than 40 or 30 or 25 mm; a diameter of less than 50% of the width of the rail head (14); adjacent edges are perpendicular to each other; an axial taper of no more than 3, 2 or 1 degree; at least 10 or 15 or 20 mm distance to the sides of the rail head (14); is located in the contact area between the running surface or running surface of the train wheels and the top surface of the rail head (14); is made by spark machining or drilling or milling or other mechanical processing, preferably milling with a milling tool for making a hole with a flat bottom; made or not made with a center cutting mill; smaller in depth and / or diameter, preferably at least 0.005 mm, than that of the plug at the same temperature, preferably at 20 degrees Celsius; flat ground. The repair method according to which for the recess (20) is: after making the hole one of claims 1-24, the following applies (20) by milling or drilling, the plug is placed in the hole without having to locations of the plug the bottom and the wall of the hole are subjected to a quality, in particular, the accuracy of one or more of roundness, depth and diameter of the hole mechanical machining with a tool, preferably whose diameter is equal to the hole diameter. The repair method according to any of claims 1-25, wherein it is carried out on a rail bend, a switch or part thereof such as a pointed piece, stop rail or rail tongue. The repair method according to any of claims 1-26, wherein the recess (20) is vertical, or deviates up to 10 degrees from the vertical. The repair method according to any of claims 1-27, wherein the recess (20) is made with a tool whose orientation is vertical during manufacture or deviates up to 10 degrees from the vertical. The repair method according to any of claims 1-28, wherein it is performed at a distance to the dilation joint of more than 50 or 100 or 150 or 200 centimeters. The repair method according to any of claims 1-29, wherein it is performed after the track has been used for intensive train traffic for at least one month or one year or two or five years. A rail in a railway in operation, obtained by the repair method according to any of the preceding claims. A plug, apparently intended for the repair method according to any of claims 1-31.