EP0427940A1 - Process and apparatus for treating the rolling surfaces of rails - Google Patents

Abstract

A method and a device for treating the upper surfaces of rails, where the upper surfaces of rails (3) are acted upon by movable grinding blocks (7) disposed on a bogie which can be moved along on the tracks and where a plurality of grinding blocks (7) is used. The grinding blocks (7) are periodically lifted and lowered again singly or in groups, cleaning of the work face of the grinding block (7) being performed during the lifting of the respective grinding block (7). In case of curves in the rails, a change of the position of the grinding block (7) in relation to a hydraulic unit (11), which vertically moves the grinding block (7), is detected by proximity switches (12), and the position of the hydraulic unit (11) can then be adjusted via a transverse guide (10).

Description

The present invention relates to a method and a device for machining the treads of rails according to the preambles of claims 1 and 7.

A comparable generic method or device is already known from DE-OS 28 01 110 and DE-OS 28 01 111. In both cases, these are rail grinding machines in which a plurality of sliding blocks arranged one behind the other in the longitudinal direction of the rail are moved back and forth during operation in an oscillating manner. The slide stones are therefore continuously in contact with the surface of the rail during operation. Continuous action of the slide stones on the rail surface is disadvantageous in that the pores between the abrasive particles are gradually clogged, causing a significant deterioration in the abrasiveness. Although the oscillating movement of the slide stones according to the prior art loosens the grinding sludge formed on the work surfaces, this self-cleaning effect is limited. Due to the use of the oscillating sliding stones, a play-free drive mechanism of the rail vehicle is also necessary in order to produce a perfect grinding effect. This means that additional costs are required.

It is an object of the present invention to provide a method and a device for machining the running surfaces of rails which, using simple means, enable inexpensive but highly effective machining of rail running surfaces.

• a) die Schleifsteine einzeln oder in Gruppen während des Betriebs periodisch in eine Arbeitsposition abgesenkt und wieder in eine Ruheposition angehoben werden,
• b) jeweils mindestens ein Schleifstein während des Be­triebs sich in Arbeitsposition befindet und
• c) während der Ruhestellung eines jeden Schleifsteins dessen Arbeitsfläche gereinigt wird.

This goal is achieved in the method according to the invention in that

• a) the grinding stones are lowered individually or in groups periodically during operation into a working position and raised again into a rest position,
• b) at least one grindstone is in the working position during operation and
• c) while each grinding stone is at rest, the working surface is cleaned.

The invention ensures that the disadvantageously acting grinding sludge can be removed from the working surfaces of the grindstones during operation. The grindstones are periodically brought into a cleaned state again and again during the operation of the device. This results in a significant increase in the grinding effect of the grindstones and thus a higher processing quality. The method according to the invention therefore ensures a very high processing quality with a significantly longer service life of the grindstones compared to known methods. Moreover, it is not necessary for the drive mechanism of the rail vehicle to be free of play got to. Expedient refinements of the method according to the invention result from subclaims 2-6.

The cleaning is expediently carried out by simply spraying in water. The possibility of cleaning the working surfaces of whetstones in general and here in particular cleaning by simply spraying water also ensures that not only the working surfaces of the whetstones but also, secondarily, the rail running surface can be cleaned during operation of the device.

An increased grinding effect with simultaneous effective cleaning of the work surfaces is expediently achieved when the majority, in particular at least two, of the grinding stones are in the working position.

A simple activation or passivation of the device can be achieved in that all grindstones are lowered via a common support and in this position individual grindstones are lifted or lowered via separate drives. At the end of the machining process, the complete device can be brought into a passive position via the common carrier.

Due to the fact that, according to a further expedient embodiment of the method according to the invention, the position of each individual grindstone is actively tracked transversely to the longitudinal direction of the rail, rail regions with curvatures (switch regions etc.), in which a change in the position of the rail relative to the tool holder due to the Wheelbase of the chassis results to be compensated. Consequently, also in curved areas of rails achieve an optimal surface quality of the machined rail.

To achieve the aim mentioned at the outset, it is provided in the device according to the invention that the grindstones can be moved vertically individually or in groups, in such a way that a periodic lifting and alternating between the grindstones (rest position) and lowering (working position) of the grindstones can be achieved and a cleaning device is provided which cleans the working surface of the grinding stone which is in the rest position. The device according to the invention enables continuous cleaning of the individual grindstones during operation, thereby substantially increasing the grinding action of the grindstones and, as a result, increasing the processing quality of the rail surface.

Water nozzles located in the area of the respective grinding stone are expediently provided as the cleaning device. The possibility of cleaning in general and here in particular cleaning by jetting water offers the additional advantage that, in addition to cleaning the working surfaces of the grindstones, the rail surface is also cleaned secondarily, so that the grindstones in the working position can process a freshly cleaned rail surface.

Each grindstone or grindstone unit is expediently assigned its own holding frame. The vertical movement of the grindstone can therefore advantageously be controlled independently of the remaining grindstones. Leave in addition achieve further movement possibilities of the holding frame with a separate holding frame.

A hydraulic unit, which is connected to the central frame or central support, is expediently used as the drive for the vertical movement of the grindstone, the holding frame serving as a counter bearing for the hydraulic unit. This configuration is particularly easy to implement in terms of construction.

Characterized in that according to a further embodiment of the device according to the invention, the holding frame and / or the hydraulic unit are connected to the central support via a transverse guide, the holding frame and / or the hydraulic unit of each grindstone can be moved vertically independently of the other grindstones. In particular, it is possible to adapt the grinding stones arranged one behind the other in the longitudinal direction of the rail to the curvature of the rail.

The tracking of the position of a grindstone transverse to the longitudinal direction of the rail described in subclaim 11 can expediently be achieved in that by means of the transverse guide the drive causing the vertical movement, in particular the hydraulic unit, can be displaced transversely to the longitudinal axis of the rails, the holding frame both in the transverse direction and perpendicular to Rail is movably arranged on the hydraulic unit and the proximity switch are provided for detecting a displacement of the holding frame transverse to the rail. This configuration has the advantage that deviations from the target position of the grinding tool due to the special arrangement of the holding frame are detectable and the transverse position can be adjusted via the transverse guide.

For this purpose, the holding frame is expediently U-shaped and has the tool holder on its open side. The holding frame and tool holder then enclose the hydraulic unit, so to speak, thus forming a closed unit, but transverse mobility of the hydraulic unit remains possible.

A further embodiment is characterized in that at least one elastic member is provided between the holding frame and the hydraulic unit. This elastic member brings about an elastically loaded vertical mobility and transverse mobility of the holding frame.

A structurally particularly simple solution provides that at least one rubber buffer is used as the elastic member, which can be both compressed and has a transverse elasticity.

• Fig. 1 die erfindungsgemäße Vorrichtung zur Bear­beitung der Lauffläche von Schienen in schema­tisierter, stark vereinfachter Darstellung;
• Fig. 2 das Prinzip der Ansteuerung bzw. Aufhängung eines einzelnen Schleifsteines aus einer Blickrichtung parallel zur Längsachse der Schiene, der Schleifstein befindet sich hier in Arbeitsposition;
• Fig. 3 die Anordnung gemäß Fig. 2 aus einer Blick­richtung quer zur Längsachse der Schiene;
• Fig. 4 die Ansteuerung bzw. Anlenkung des Schleif­steins, wobei sich der Schleifstein hier im abgehobenen Zustand in Ruheposition befindet;
• Fig. 5 die Anordnung gemäß Fig. 4 aus einer Blick­richtung quer zur Längsachse der Schiene.

A practical embodiment of the present invention is explained in more detail below with reference to the drawings. Show it:

• Figure 1 shows the inventive device for machining the tread of rails in a schematic, greatly simplified representation.
• 2 shows the principle of the control or suspension of an individual grindstone from a viewing direction parallel to the longitudinal axis of the rail, the grindstone is in the working position here;
• 3 shows the arrangement according to FIG. 2 from a viewing direction transverse to the longitudinal axis of the rail;
• 4 shows the control or articulation of the grindstone, the grindstone being here in the raised position in the rest position;
• Fig. 5 shows the arrangement of FIG. 4 from a viewing direction transverse to the longitudinal axis of the rail.

1 shows with reference number 1 the device according to the invention for machining the running surfaces of rails 3. The device 1 comprises a chassis 2 which is itself driven or can be moved via a tractor (not shown). On each side of the chassis 2 there is a processing unit which has a central carrier 4 which is arranged so as to be vertically movable via hydraulic cylinders 6 and rockers 5. The processing unit can consequently be lowered via the common carrier 4 into an active position that prevails during operation. When the machining process is finished, the entire machining unit is raised via the hydraulic cylinders 6.

The processing unit comprises a plurality of grinding stones 7 arranged one behind the other in the longitudinal direction of the rail 3 along the carrier 4 and which act on the surface of the rail during operation. The underside of the respective grindstone 7 has a profile adapted to the surface contour of a rail.

The construction of the mounting or suspension of the individual grinding stones 7 can be seen from FIG. The common carrier 4 stands with a hydraulic unit 11 via a transverse guide 10 in connection. The hydraulic unit 11 comprises a pressure stamp 15 which is carried by a support part 16. Support part 16 and pressure ram 15 form hydraulic unit 11.

The plunger 15 and the support part 16 are surrounded by a U-shaped holding frame 8, the open end of which is closed by a tool holder 9 to which the grindstone 7 is attached. The U-shaped holding frame 8 and the tool holder 9 surround the hydraulic unit 11, the pressure ram 15 of the hydraulic unit 11 engaging on the inside of the narrow side of the U-shaped frame 8.

Between the tool holder 9 and the underside of the support part 16 of the hydraulic unit 11, as can be seen in FIG. 3, two rubber buffers 13 are inserted. When the plunger 15 of the hydraulic unit 11 is actuated, the two rubber buffers 13 permit vertical movement from the holding frame 8 to the hydraulic unit 11, the hydraulic unit 11 being supported on the tool holder 9 via the two rubber buffers 13. However, this construction not only allows a vertical movement from the holding frame 8 to the hydraulic unit 11, but also a horizontal displacement of the two parts relative to one another. Here, the two rubber buffers 13 are deformed in the direction of the deflection.

The hydraulic unit 11 is arranged to be displaceable transversely to the longitudinal axis of the rail via the transverse guide 10 by means of a hydraulic cylinder 6. Furthermore, proximity switches 12 are provided on the holding frame 8 for determining changes in the distance from the hydraulic unit to the respective proximity switch 12. The roundabouts approximately switch 12 are connected to a controller which acts on a hydraulic valve 17.

Figures 2 and 3 denote the grindstone or its control in the working position, i. H. in direct contact with the running surface of the rail.

4, on the other hand, describes the rest position of the grindstone 7, which can be carried out by actuating the pressure stamp 15. The rubber buffers 13 are compressed accordingly.

As can be seen from FIG. 5, water nozzles 14 are provided in the area of the grindstone 7, which free the working surfaces of the grindstone 7 and secondarily also the rail surface from adhering grinding sludge during the period of rest of the respective grindstone 7.

The mode of operation of the device according to the invention will be explained in more detail below. During operation (carrier is lowered = active position) of the device 1, the individual grindstones 7 are alternately lifted or lowered by actuating the respective pressure ram 15, the working surfaces of the lifted grindstones being cleaned in each case by means of a water jet. The cycle sequence of the grinding stones in the working or resting position can be set as desired, but it has proven to be advantageous to always keep a plurality of grinding stones in the working position.

The actuation of the individual hydraulic units 11 or pressure rams 15 takes place periodically one after the other with the aid of a suitable control. The remaining Grinding stones 7 remain in the working position, the pressure forces exerted by the central carrier 4 being constant and effectively exerting on the grinding stones in the working position. Constant machining forces are guaranteed because the friction force is independent of the surface.

When changing track widths or when changing the position of the chassis to the rail track, for example in curves, it is possible to readjust the position of the grindstones. Consequently, if the track width or the position of the vehicle relative to the rail track changes, this leads to a change in the position of the holding frame 8 relative to the vehicle due to the free transverse mobility of the holding frame 8 holding the grindstone 7, which causes a deformation of the rubber buffers 13. In other words, the position of the holding frame 8 or the tool holder 9 relative to the hydraulic unit 11 which is fixedly connected to the carrier 4 changes. The deviation from the respective desired position is detected in both directions with the aid of proximity switch 12. With the aid of the signals from the proximity switches 12, the hydraulic valve 17 is actuated, whereby the hydraulic cylinder 6 performs a compensation movement of the hydraulic unit 11 via the transverse guide 10. This compensation movement is activated until the respective proximity switch 12 switches off when the desired position of the grindstone 7 is reached.

The method according to the invention and the related device enable a highly efficient machining of rail surfaces with a longer service life of the grindstones 7 compared to the prior art. Furthermore, an increased structural density of compared to the known devices mentioned at the outset Allows grinding stones. Ultimately, there are no special requirements for the drive mechanism of the towing vehicle. All in all, the invention proves to be a significant advance in the field of surface processing of rails.

REFERENCE SIGN LIST

• 1 device for machining treads
• 2 chassis
• 3 rails
• 4 carriers
• 5 swingarm
• 6 hydraulic cylinders
• 7 grinding tool
• 8 holding frames
• 9 tool holder
• 10 lateral guidance
• 11 hydraulic unit
• 12 proximity switches
• 13 rubber buffers
• 14 water nozzle
• 15 stamps
• 16 support part
• 17 hydraulic valve

Claims (17)

1. A method for machining the running surfaces of rails, in which the sliding surface of rails is acted on by means of movable grinding stones arranged on a chassis that is movable along the rail section, a plurality of grinding stones being used,
characterized,
that a) the grinding stones are individually or in groups periodically lowered into a working position during operation and then raised again to a rest position, b) in any case a grindstone is in the working position during operation and c) while each grinding stone is at rest, the working surface is cleaned. 2. The method according to claim 1,
characterized,
that the cleaning is done by jetting water. 3. The method according to claim 1-2,
characterized,
that at least two grindstones are constantly in the working position. 4. The method according to claims 1-3,
characterized,
that all grindstones are lowered via a common carrier and in this position the lifting or lowering of individual grindstones takes place via separate drives. 5. The method according to claims 1-4,
characterized,
that the position of each individual grindstone is actively tracked transversely to the longitudinal direction of the rail. 6. The method according to claim 5,
characterized,
that each grindstone is tracked independently of the other grindstones. 7. Device for processing the treads of rails, in particular for carrying out the method according to claims 1-6, with a chassis, at least one support that can be supported on the chassis, which is connected to grindstones that can be pressed onto the treads of rails and the grindstones in the longitudinal direction the rails are arranged one behind the other,
characterized,
that the grindstones (7) can be moved vertically, individually or in groups, in such a way that a periodic and alternating lifting (rest position) and redeposition (working position) of the grindstones (7) can be achieved during operation and cleaning device is provided which cleans the working surface of the grinding stone (7) which is in the rest position. 8. The device according to claim 7,
characterized,
that water nozzles (14) are provided as a cleaning device in the area of the respective grinding stone (7). 9. Device according to claims 7 or 8,
characterized,
that each grindstone (7) or each grindstone group is assigned its own holding frame (8). 10. Device according to claims 7-9,
characterized,
that the drive for the vertical movement of the grindstone (7) takes place hydraulically and serves as a counter bearing for the hydraulic unit of the holding frame (8). 11. The device according to claims 7-10,
characterized,
that the position of each individual grindstone (7) transversely to the longitudinal direction of the rail (3) can be actively tracked during operation. 12. The device according to claim 11,
characterized,
that the holding frame (8) and / or hydraulic unit (11) are connected to the central support (4) via a transverse guide. 13. The apparatus of claim 11 or 12,
characterized,
that by means of the transverse guide (10) of the drive which causes the vertical movement, in particular the hydraulic unit (11), can be displaced transversely to the longitudinal direction of the rails (3), the holding frame (8) can be moved on the hydraulic unit both in the transverse direction and perpendicular to the rail (3) (11) is arranged and proximity switches (12) are provided for detecting a displacement of the holding frame (8). 14. Device according to claims 7-13,
characterized,
that the holding frame (8) is U-shaped and has a tool holder (9) on its open side and thus forms a closed unit. 15. Device according to claims 7-14,
characterized,
that at least one elastic member is provided between the holding frame (8) and the hydraulic unit (11). 16. The apparatus of claim 15,
characterized,
that at least one rubber buffer (13) is provided as the elastic member. 17. The apparatus according to claim 14,
characterized,
that the hydraulic unit (11) is supported on the tool holder (9) via a support part (16) and two rubber buffers (13).

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