EP4298280A1 - Device and method for material machining of the frog point of a points arrangement - Google Patents

Abstract

The invention relates to a device (1) and a method for material machining of the frog point (102) of a frog (101) of a points arrangement (100) of a track system, in particular for reprofiling the geometry of the wheel transfer region of a frog point (102). The device (1) according to the invention comprises a base frame (2) and a holding frame (3), and a milling or grinding machine (4) which is held by the holding frame (3). The device (1) can be fastened by way of the base frame (2) to the points arrangement in the region of the frog (101). The milling or grinding head (41) of the milling or grinding machine (4) can be oriented flexibly and precisely for reprofiling of the frog point (102) by way of a combination of setting possibilities of the position of the holding frame (3) with respect to the base frame (2) and of the milling or grinding machine (4) within the holding frame (3).

Description

DEVICE AND METHOD FOR MATERIAL PROCESSING OF THE FROZEN POINT OF A SWITCH ARRANGEMENT

The invention relates to a device and a method for material processing of the frog point of a frog of a switch arrangement of a track system, in particular for reprofiling the geometry of the wheel overrun area of a frog point.

Frogs are known to be important components of switch arrangements in rail construction and are used to enable rail vehicles with flanged wheels in the area of the switch arrangement, where two tracks separate or merge, to change from one track to another track. The inevitable gaps in the running surface in the area of the frogs lead to impacts that lead to severe signs of wear on the frog, in particular the tip of the frog.

Damage to the frog caused by wear and tear is regularly repaired by means of repair welding. The correct geometry of the frog must then be restored, for example, the tip of the frog must be lowered appropriately or the desired longitudinal height profile must be generated. This is currently often done by laborious manual grinding. The precise manufacture of the required tip lowering and wheel overrun areas in accordance with the applicable specifications is hardly possible by hand with the specified low tolerances, and compliance with the tolerances must be constantly checked using a ruler and gauges. Previous measurement of the frog using laser scanners to determine reference values and regular checking of the manual reprofiling using lasers is time-consuming and does not always lead to an improvement. In addition, the breaks in operation during which the repair measures can be carried out are often very short, so that the repair work has to be carried out under time pressure. The design is therefore often imprecise, so that the frog subsequently has to be repeatedly repaired at relatively short time intervals, which shortens the life of the frog. Devices and methods for material processing of frogs of switch systems are, for example, from EP 1979543 Bl, EP 2808446 Al, DE 202006015507 Ul, DE 2642072 Al, AT 510566 Bl, US 2002/0194722 Al, US 6663476 Bl, US 7442115 Bl and WO 02/06587 Al known.

The object of the present invention is to provide a means by means of which a desired frog geometry, for example a desired lowered crossing point, can be restored in situ in the wheel overrun area of a worn or damaged frog of a switch arrangement.

To achieve the object, the invention provides in a first aspect a device for material processing of a crossing point of a crossing of a switch arrangement of a track system with rails for rail vehicles with flanged wheels, comprising a) a rigid base frame for resting on the switch arrangement in the area of the crossing, wherein the base frame Has fastening means for fixing the base frame to at least one rail of the switch arrangement, b) a rigid holding frame for holding a milling or grinding machine, the holding frame i. having a first support frame part hingedly connected or connectable to a first base frame part of the base frame at a point of contact, and ii. mounted or can be mounted with a second holding frame part on a second base frame part of the base frame in such a way that the second holding frame part of the holding frame can be displaced in a plane parallel to a plane formed by the base frame and perpendicular to this plane, and c) a milling or grinding machine with a milling or grinding head, where i. the milling or grinding machine is held by the holder frame by means of a holder in such a way that the milling or grinding machine with its milling or grinding head can be displaced within the holder frame in a plane formed by the holder frame in the direction of the point of contact and on the second base frame part of the base frame mounted second holding frame part and in the transverse direction is displaceable, and ii. the milling or grinding machine with its milling or grinding head can be displaced perpendicularly to the plane of the holding frame formed by the holding frame and by one parallel to the direction the point of contact and the axis oriented on the second base frame part of the base frame displaceably mounted second holding frame part.

The device according to the invention, which is also referred to here as a "frog milling machine" for short, enables precise and reliable reprofiling of rails or rail parts, in particular the heart of a switch arrangement, in situ, the device being comparatively simple in construction and handling. The milling or grinding machine held by the holding frame of the device according to the invention can be adjusted in six directions, so that the milling or grinding head can be brought into any desired position. The device is preferably designed to be portable, so that it can be easily transported to the place of use. In addition, the device is preferably not rail-guided, ie it has no flanged wheels or the like, with the help of which the device can be guided along a track like a rail vehicle. As a result, the device according to the invention can be used more flexibly.

The core idea of the invention is to provide a base frame and a holding frame that can be tilted and rotated relative to the base frame for holding a milling or grinding machine, the base frame having suitable fastening means for fixing the base frame and thus the entire device to one or more rails of a switch arrangement is equipped, and the holding frame has means with the help of which the position of the milling or grinding head of the milling or grinding machine can be brought into any position precisely and flexibly. The device can be brought to the place of use in an already assembled state or also in individual parts, for example divided into a base frame component and a holding frame component, and assembled there to form the device. The base frame can, for example, be placed on a switch arrangement in the area of a frog point to be reprofiled and fixed there on one or more suitable rails of the switch arrangement, so that the device is fixed to the switch arrangement during the milling and/or grinding work to be carried out on the frog point. The holding frame is articulated at the point of contact, for example by means of a cardanic mounting, connected to the base frame, so that at this point it is perpendicular to the plane of the Rotated base frame lying first axis, can be tilted about a second axis perpendicular to this first axis and pivoted in the direction of the displaceably mounted holding frame part.

The term “in situ” means on-site use, i.e. on a switch arrangement that has already been laid.

A "rail" is understood here as a railway rail, for example a grooved rail, Vignole rail or crane rail. A "stock rail" is understood to be a rail in the area of a switch to which a switch tongue can be placed. A "switch rail" (also "switch tongue" or "tongue") is an adjustable rail end piece of a switch, which is used to change the direction of travel.

A "switch arrangement" is understood here to mean a rail arrangement for changing lanes in rail-bound means of transport, i.e. rail vehicles. A switch arrangement enables rail vehicles to change between different tracks without interrupting their journey. Essential components of a switch arrangement are, for example, the switch device, which comprises a pair of stationary stock rails and a pair of switch rails that can be moved transversely to them, as well as the so-called frog, which comprises the frog point (also “frog point” for short) and the associated wing rails that run parallel to the frog point. The "point of frog" is the part of the frog where the inner rails of two separate or merged tracks meet at an acute angle. Since the running surface of the tracks is interrupted in the area of the so-called frog gap of the frog, bumps regularly occur when rail vehicles drive over them, which lead to increased wear, especially of the frog tip.

The expression "not rail-guided" refers to the absence of device elements, in particular flanged wheels, which allow the device to be driven on a track or at least one rail thereof. The term "reprofiling" refers to restoring the desired geometry of a running surface of a rail, for example the wheel run-out area of a frog point. The reprofiling can be done by milling and/or grinding. According to DIN 8589, "milling" is understood to mean machining with a circular cutting movement assigned to the tool and any feed movement, with the axis of rotation of the cutting movement maintaining its position relative to the tool regardless of the feed movement. According to DIN 8589, “grinding” means machining with bonded abrasive grains as geometrically undefined cutting edges.

The term “portable” in relation to the device according to the invention means that the weight of the device is in a range that allows the device to be transported as a whole or divided into a maximum of two or three components by a maximum of two people using muscle power. The weight of the device can be, for example, in the range of 40-80, preferably in the range of 45-75, more preferably in the range of 50-70 kg. By using suitable materials, for example light metals, e.g., aluminum, or suitable plastics, the weight of the device can be kept within a manageable range.

“Trapezoidal” in relation to a frame is understood here to mean a frame whose frame legs are understood to be a planar quadrilateral with at least two sides lying parallel to one another. A "rectangular" frame is a trapezoidal frame where all interior angles are right angles. The term "rectangular" includes the term "square". A square frame is a "rectangular" frame where all four legs are the same length.

When reference is made here to a plane formed by a frame, eg the base frame or the holding frame, this means a plane in which the frame essentially extends, regardless of whether the individual frame elements all lie in this plane or not . With regard to the base frame, a plane is meant, for example, which lies parallel to the plane in which the rail surfaces lie in the area of the switch arrangement when in use. In the operational situation, this will often, but not necessarily, run horizontally. In relation to the holding frame, this is a level meaning in which the milling or grinding machine can be moved back and forth between the point of contact and the sliding holding frame part. This plane can run parallel to the plane of the base frame, but not depending on the tilted position of the holding frame, ie depending on whether the displaceable holding frame part is shifted perpendicularly to the plane of the base frame or not. In the case of a trapezoidal, for example rectangular, frame, the plane is defined by the plane in which the parallel frame parts lie. This applies to both the base frame and the holding frame.

The expression according to which the holding frame “is mounted or can be mounted with a holding frame part on a base frame part of the base frame” means that the holding frame is mounted with a part, for example a frame section, frame leg or the like, directly or indirectly on a part of the base frame or can be stored. “Indirectly” means that a device, for example a lifting column or the like, is fastened to the holding frame and extends in the direction of the base frame and is or can be mounted thereon at one end.

The wording according to which the milling or grinding machine can be pivoted about an axis oriented parallel to the direction of the point of contact and the second holding frame part which is displaceably mounted on the second base frame part of the base frame means that the milling or grinding machine can be pivoted about an axis which is in or parallel to to the connecting line between the point of contact and the second holding frame part mounted on the second base frame part, preferably its midpoint. The pivot axis lies in or parallel to the plane of the holding frame. In the case of a rectangular holding frame with four legs and a point of contact located on a first holding frame leg, the axis preferably runs in or parallel to a line that preferably runs from the center of the first holding frame leg to the center of the second holding frame leg opposite the first holding frame leg and parallel to the first and second holding frame legs connecting lateral third and fourth holding frame legs.

Whenever the terms "horizontal" or "vertical" are used herein in relation to the pivoting of the support frame or milling or grinding machine, they refer Terms, unless the context clearly indicates otherwise, at the level of the base frame. In the operational situation, the base frame plane lies in or parallel to the plane of the rail head surfaces. Depending on the application situation, the base frame can run parallel to the plane of the earth's surface. However, this is not necessarily the case, for example in the case of point arrangements that are laid on ramps or in the mountains. A "horizontal" displacement or pivoting means, unless the context clearly indicates otherwise, a displacement or pivoting in a plane parallel to the plane of the base frame, a "vertical" displacement or pivoting a displacement or pivoting in a direction orthogonal to the base frame level.

The terms "front", "rear" and "side" with reference to the device according to the invention refer here to the position of the contact point or the first holding frame or base frame part and to the position of the second holding frame or base frame part. As used herein, “front” refers to the portion of the device that includes the touch point, and “rear” refers to that portion of the device that includes the second support frame or base frame portion opposite the touch point. In the operational situation, "front" is usually the area of the device according to the invention that is closer to the frog point, while "rear" refers to that part of the device that is in the direction of the opening rail legs of the frog. "Side" thus refers to areas of the support or base frame that connect the front and rear parts of the respective frame.

If the terms "top" and "bottom" are used here, they refer to the position of the frames in relation to one another and the intended application situation in which the base frame is arranged on the rails and the holding frame is arranged above it. "Down" means in the direction of the base frame or rails, "up" in the direction of the "retaining frame" or away from the base frame or the rails.

As used herein, the phrase "parallel to," for example, with respect to an axis, plane, trajectory of a line, or the like, may also imply that the referenced parallel structures coincide and are not spaced from one another. For example, a phrase such as “an axis is parallel to a line from A to B” implies that the axis lies in the line, or vice versa, so that the axis and line coincide, so long as the context or the technical constellation does not clearly result in something else.

The term "frog cutter" used in relation to the device according to the invention includes grinding and milling machines.

Both the base frame and the holding frame can have different geometric shapes. In this case, for example, a polygonal shape is not absolutely necessary. Rather, the frames can also be generally circular or elliptical. Polygonal shapes, for example trapezoidal frames, are preferred for manufacturing reasons. In particular, the base frame is preferably designed in such a way that it can be easily attached to at least one rail, preferably to more than one rail, which is part of a switch arrangement, by means of suitable fastening means, eg clamps. For example, the device can be fastened to the wing rails in the area of the first base frame part, ie in the area of the contact point, and to the running rails behind the frog in the area of the second base frame part. For this purpose, the base frame can be designed, for example, in a trapezoidal manner with a first base frame leg and a second base frame leg arranged parallel thereto. The base frame is preferably designed as an isosceles trapezoid, but can also be rectangular. The holding frame can also be designed in a trapezoidal manner with a first holding frame leg and a second holding frame leg arranged parallel thereto. The holding frame is preferably designed as an isosceles trapezoid, particularly preferably rectangular. In the case of a rectangular frame, it is preferred if the frame is not square but has a greater longitudinal than transverse extent. A rectangular holding frame preferably has a larger longitudinal extension in the direction from the point of contact to the opposite holding frame part, ie a larger longitudinal extension in the direction of the course of the rail. Correspondingly, the base frame preferably also has a correspondingly larger longitudinal extent in this direction. The frame shapes of the base frame and the holding frame within a device according to the invention can be combined in any suitable manner. The base frame can be isosceles, for example be trapezoidal, wherein the first base frame leg can be shorter than the second base frame leg, while the holding frame is rectangular. The base and holding frames are of course designed and adapted to one another in such a way that the milling or grinding machine can be moved or pivoted in a suitable manner as described here and aligned with the frog so that processing of the frog is not impeded. If the holding frame is not rectangular, the holder of the milling or grinding machine is designed in such a way that the milling or grinding machine can be moved within the holding frame by suitable means, for example telescopic extensions.

In a preferred embodiment of the device according to the invention:

- the base frame is trapezoidal in design with a first base frame leg comprising the first base frame part and a second base frame leg comprising the second base frame part arranged parallel thereto,

- the holding frame is designed in a trapezoidal manner with a first holding frame leg comprising the first holding frame part and a second holding frame leg comprising the second holding frame part arranged parallel thereto,

- the first holding frame leg of the holding frame is hingedly connected to the first base frame leg of the base frame at the point of contact, and

- The second holding frame leg of the holding frame is fastened to a lifting column which is displaceably arranged on the second base frame leg and can be moved along the lifting column perpendicularly to the second base frame leg.

In this embodiment of the device according to the invention, the first base frame limb is preferably shorter than the second base frame limb, and the holding frame is preferably rectangular, but preferably not square.

Since the holding frame is mounted rotatably about an axis at the point of contact, so that the holding frame with its second holding frame part can be pivoted about this axis parallel to the plane of the base frame, for example horizontally in the operational situation, there is preferably an arcuate section on the second base frame leg in this embodiment provided, for example in the form of a on a linear trained base frame leg arranged, in cross-section U-shaped profile as displacement or running surface on which the lifting column is mounted. The lifting column can, for example, have wheels at its base, with which the lifting column can be moved with the second holding frame leg fastened to it. The second holding frame leg is fastened to the lifting column in a suitable manner in such a way that the second holding frame leg can be displaced perpendicularly to the second base frame leg. Instead of wheels, other lubricants can also be provided.

The base frame and the support frame can be made of any suitable material or combination of materials, for example metal or plastic, but are preferably made of metal. Particularly preferably, both the base frame and the holding frame are metal profile frames. The materials are preferably chosen in such a way that they combine sufficient stability and wear resistance with the lowest possible weight.

The adjustment of the position of the holding frame relative to the base frame, e.g. the degree of pivoting around the point of contact in the horizontal and/or vertical direction, and the adjustment of the milling or grinding machine within the holding frame is preferably carried out by means of suitable mechanical or electromechanical devices, for example by means of linear units, which can be adjusted by hand (e.g. using a hand wheel) or by means of motors (e.g. by means of electrically or otherwise operated geared motors). The pivoting, for example, of the milling or grinding head or also of the holder frame about a pivot axis can also take place by locking the pivot axis in certain angular steps that are precisely defined or can be fixed.

The device according to the invention can also be designed and set up so that the milling or grinding machine is operated with its milling or grinding head under laser control, so that the relative position of the milling or grinding head to the crossing frog point can be set under laser control.

In a further aspect, the present invention also relates to a method for material processing of a frog point of a frog of a switch arrangement Track system with rails for rail vehicles with flanged wheels, comprising the following steps: a. Arranging a device according to one of the preceding claims with the base frame on a switch arrangement in the area of the heart of the switch arrangement, b. Fixing the device by means of the fastening means of the base frame on the switch arrangement in the area of the frog, c. aligning the milling or grinding head of the milling or grinding machine in the holding frame in relation to the frog point, and d. Milling or grinding the frog point.

In a preferred embodiment of the method according to the invention, the milling or grinding head is positioned by means of laser control.

The invention is explained in more detail below with reference to the attached drawings purely for illustrative purposes.

Figure 1. Schematic top view (A) of the frog of a switch arrangement and profile view (B) of the frog tip.

FIG. 2. Three-dimensional view of an embodiment of a device according to the invention in use from one side.

FIG. 3. Three-dimensional view of the embodiment of a device according to the invention shown in FIG. 3 in use from another side.

FIG. 4. Schematic views of an embodiment of a device according to the invention from a long side (A), in a plan view (B), from a first narrow side (C) and the opposite narrow side (D).

Figure 5. Detail view of part of the embodiment of a device according to the invention shown in Figures 3 and 4 with the touch point. FIG. 6. A further detailed view of part of the embodiment of a device according to the invention shown in FIGS. 3 and 4.

Figure 1 shows a simplified schematic top view (A) of a frog 101 of a switch arrangement 100 with a frog point 102, the wing rails 103 flanking the frog point 102 and the frog gap 108, i.e. the interruption of the running rails 109 in the area of the frog 102. In the lower part of the Referring to Figure 1(B), a side profile view of frog nose 102 is shown. As can be seen from Figure 1B, the frog tip 102 has a specific height profile geometry of the wheel overrun area, i.e. a gradual lowering compared to the running rail level 110. The number and dimensions of the steps can vary depending on the application or region. In the embodiment shown here as an example, the crossing point 102 is lowered overall in the horizontal direction over a length B and in the vertical direction over a height b, with a more steeply inclined step over a length A and a height a. This height profile can be lost during repair welding at the heart point 102 and must be renewed. A corresponding reprofiling can take place with the aid of the device 1 according to the invention.

FIG. 2 shows an embodiment of a device 1 according to the invention in the operational situation (see also FIG. 3 with a different perspective). A frog 101 with a frog tip 102 and wing rails 103 can be seen. The device 1 according to the invention here has an isosceles trapezoidal base frame 2 made of metal profiles with four base frame legs 23, 24, 25 and 26. A first base frame leg 23 forms the front of the base frame 2, the second base frame leg 24 the rear part of the base frame 2. The third and fourth base frame legs 25, 26 are longer than the front and rear base frame legs 23, 24 running transversely thereto and form the lateral part of the Base frame 2. The terms "front", "back" and "sideways" refer here to the position in relation to the heart tip, the front part of the base frame 2 being the part that is closer to the heart tip 102 in the deployment situation shown here is to, while that part of the base frame 2 is referred to as the rear part, which is in the direction of the opening legs 111 of the frog 101. Without reference to a switch arrangement 100, the “front” part of the device 1 is also referred to here as that part of the device 1 with the contact point 5, understood as the “rear part” of the device 1 that part of the device 1 which is opposite the contact point 5. The first (front) base frame limb 31, which includes a first base frame part 21, is shorter than the second (rear) base frame limb 24, which includes a second base frame part 22. The base frame 2 is here centered with the first (front) and second (rear) base frame limbs 23, 24 horizontally on rails in the area of the frog 101 and is fixed there with the aid of fastening means 27, which are only indicated here and which can include, for example, clamping jaws or the like, so that the device 1 is fixed in the area of the frog 101. The base frame 2 is oriented in such a way that the longer lateral base frame legs 25, 26 extend essentially in the direction of the course of the running rails 109 or wing rails 103 and the base frame opening 29 allows free access to the frog 101. The second (rear) base frame leg 24 comprises a second base frame part 22 on which a U-profile 28 designed in the shape of a circular arc is arranged. The center point of the circular arc is here, for example, a point in the middle of the first (front) base frame leg 23.

The device 1 comprises a holding frame 3, which in this embodiment is rectangular in shape, with four holding frame legs 33, 34, 35, 36, a first (front) holding frame leg 33 and a second (rear) holding frame leg 34 and two compared to the first and second holding frame legs 33, 34 longer (lateral) third and fourth holding frame legs 35, 36. The first (here front) holding frame leg 33 comprises a first holding frame part 31 which is articulated at a contact point 5 (e.g. by means of a cardanic bearing) to the first base frame part 21 of the base frame 2 . The holding frame 3 is rotatably and tiltably mounted at this point of contact 5, so that the holding frame 3 can be rotated about the point of contact 5 in the horizontal direction and tilted in the vertical direction. The second holding frame leg 34 with the second holding frame part 32 is located opposite the first holding frame leg 33 with the first holding frame part 31 . With the second holding frame part 32, the holding frame 3 is mounted on the second base frame part 22 of the base frame 2 via a lifting column 6 in such a way that the second holding frame part 32 of the holding frame 3 is in a plane parallel to a base frame plane 20 formed by the base frame 2 (see also Fig. 6) lying holding frame plane 30 and perpendicular to the base frame plane 20 is displaceable. The postponement of the second Retaining frame part 32 in the retaining frame plane 30, in the application situation usually corresponding to a horizontal or lateral displacement, can be done, for example, by means of a linear unit 65 manually or electrically. In the embodiment shown here, the linear unit 65 includes a linear axis 64 with a spindle, which can be adjusted manually using a hand wheel 63 . Manual adjustment by means of a handwheel or the like is preferred for reasons of greater flexibility, so as not to be dependent on any power supply at the place of use. The second holding frame part 32 is mounted on the second base frame part 22 via a lifting column 6, to which the second holding frame part 32 is fastened and can be displaced in the vertical direction to the base frame plane 20, i.e. in the operational situation regularly in the vertical direction. In the embodiment shown in FIG. 2, an exact vertical displacement of the second holding frame part 32 is possible by means of a handwheel 62 and a linear unit located in the lifting column 6. Of course, a motorized variant, for example an electric motor, can also be used here. The lifting column 6 has wheels 61 on the bottom side, ie towards the base frame 2 , by means of which the lifting column 6 can be moved on the second base frame part 22 . For this purpose, a U-profile 28 designed in the shape of a circular arc is fastened to the second base frame piece 24, in which profile the lifting column 6 with the wheels 61 can be moved.

The milling or grinding machine 4 is movably held in the holding frame 3 by means of a holder 7 . The milling or grinding machine 4 is directed here to the first holding frame leg 33 with the first holding frame part 31 and thus to the point of contact 5 between the holding frame 3 and the base frame 2 . In the embodiment shown here, the holder 7 comprises a plate 72, which can be displaced in the longitudinal direction within the holding frame 3 by means of a handwheel 38 via a double-tube linear unit 39 with linear axes 391 arranged outside of the holding frame 3 and running parallel to the third and fourth holding frame legs 35, 36 is. In the longitudinal direction means that the plate 72 can be moved back and forth between the first holding frame leg 33 with the first holding frame part 31 and the second holding frame leg 34 with the second holding frame part 32 . Instead of manual operation by means of a handwheel 38, the drive can also be motorized. The milling or grinding machine 4 is held by the holder 7 on this plate 72 and can be moved with the plate 72 in the holding frame 3 . By means of another linear unit 75, which includes a linear axis 74 and a hand wheel 73, the or grinding machine 4 in the transverse direction, ie between the third holding frame leg 35 and the fourth holding frame leg 36, on the plate 72 back and forth. In addition, an angular adjustment 77 that can be set manually by means of a handwheel 76 and a linear axis 78 is arranged on the plate 72, by means of which the milling or grinding machine 4 can be pivoted in the direction between the third and fourth holding frame legs 35, 36. The milling or grinding machine 4 is connected to the angle adjuster 77 via a lifting column 71 to which the milling or grinding machine 4 is attached, so that the lifting column 71 can be pivoted together with the milling or grinding machine 4 . Via the angle adjustment 77, the milling or grinding machine 4 can be swiveled in exact angular stages, preferably by locking the axis of rotation 8 about which the milling or grinding machine 4 is swiveled. The milling or grinding machine 4 can be moved back and forth on the lifting column 71 to the base frame 2 and thus to a frog 101 in the operational situation by means of a hand wheel 79 in order to be able to set the infeed of the milling or grinding machine 4 .

Figure 3 shows a three-dimensional view of the device 1 according to the invention on the "rear side", i.e. on the part of the device 1 shown in Figure 2 which is directed towards the opening legs 111 of the crossing frog 101 in the operational situation refer to the description of FIG.

4 and 5 show details of specific areas of the device according to the invention from FIGS. 2 and 3. FIG. 4 shows a side view obliquely from above of the front part of the device 1 according to the invention, and FIG. 5 shows a view of the rear of the holder 7 for the milling or grinding machine 4. Reference numbers correspond to those used in FIGS. The point of contact 5 with the cardanic bearing 55 can be seen in greater detail in FIG. 4 in particular. The cardanic bearing 55 comprises the pivot axis 51 and the axis of rotation 52 (not visible) and is connected to the holding frame 3 on the one hand and to the connected to the base frame 2. The bearing 55 is designed here as a pillow block bearing (for example of the SYK 30 TF type, SKF GmbH, Schweinfurt, Germany) with a grooved ball bearing with a spherical outer ring surface. The holding frame legs 33, 34, 35, 36 are connected at the corners to corner elements 301 and are reinforced relative to one another in order to make the holding frame 3 as rigid as possible. In Fig. 5, the bearing 81 for the axis 8 for angular adjustment of the milling or grinding machine 4 can be seen.

FIG. 6 shows, in a highly schematized form, the various adjustment options for the milling or grinding machine 4 in the device according to the invention. For ease of reference, a coordinate system is shown on the left of each figure. Figure 6A shows a side view. The device 1 is arranged and fixed with its base frame 2 on the frog 101 with its frog tip 102 . The base frame plane 20 in the xy direction runs parallel to the rail plane 110. In the situation shown here, which, unlike in Figures 3 and 4, shows a position of the holding frame 3 in which the second holding frame leg 34 with the second holding frame part 32 of the lifting column 6 is arranged in the lowest position, the holding frame plane 30 is also parallel to the base frame plane 20 and the running rail plane 110. However, this is no longer the case as soon as the holding frame 3 with its second holding frame part 32 is in the direction indicated by the arrow 203 is shifted in the vertical direction with respect to the base frame 2. A situation in which the second holding frame part 32 is displaced along the lifting column 6 into an upper position is shown in FIGS. 3 and 4. As the second holding frame part 32 moves along the lifting column 6 , the holding frame 3 is tilted or tilted about the axis 51 at the point of contact 5 between the holding frame 3 and the base frame 2 , which is indicated by the arrow 201 . The inclination relative to the base frame plane 20 can be 0-9°, for example. The holding frame 3 is preferably mounted on the axis 51, preferably cardanically, so that it can be pulled back or advanced in the direction of the lifting column 6 when the second holding frame part 32 is displaced in the z-direction, ie usually vertically. FIG. 6B shows a plan view of the device 1 according to the invention. The heart tip 102 lying under the base frame 2 and the holding frame 3 arranged on the base frame 2 is also indicated here schematically. The holding frame 3 is rotatably mounted at the contact point 5 about the axis 52, as indicated by the arrow 206, and can be pivoted with its opposite second holding frame part 32 in the y direction, which usually corresponds to a horizontal line, as shown by the Arrow 207 is indicated, for example by ±5°. The milling or grinding machine 4 can be used for the feed in its holder 7 along the arrows 204 and 205 in the longitudinal direction (x-direction, arrow 205) and transversely thereto (arrow 204), ie in the y-direction, are shifted, depending on the frame size, for example by 0-1440 mm in the longitudinal direction and ±80 mm in the transverse direction. Figures 6C and 6D show a front view of the device 1, ie the first holding frame part 31 and the first base frame part 21 (Fig. 6C), and a rear view of the device 1, ie the second holding frame part 32 and the second base frame part 22. The milling or grinding machine 4 can be moved vertically or along the swiveling lifting column 71 (not shown here) in the z-direction (arrow 202) and in the y-direction, for example by 0-100 mm. In addition, the milling or grinding machine 4 in y

direction about an axis 8, for example by ±30°, as indicated by the arrow 208, for example for chamfering the frog point 102. Angle locks can preferably be made here, by the angle by which the milling or grinding machine 4 is pivoted to be able to set and fix exactly. In FIG. 6D, the possibilities of displacement of the lifting column 6 in the direction of the arrow 207 and of the second holder frame part in the vertical direction are indicated by the arrows 207 and 203.

Claims

PATENT CLAIMS

1. Device (1) for the material processing of a frog point (102) of a frog (101) of a switch arrangement (100) of a track system with rails for rail vehicles with flanged wheels, comprising a) a rigid base frame (2) for resting on the switch arrangement (100) in Area of the frog (101), the base frame (2) having fastening means (21) for fixing the base frame (2) to at least one rail of the switch arrangement (100), b) a rigid holding frame (3) for holding a milling or grinding machine (4), wherein the holding frame (3) i. is or can be connected to a first base frame part (21) of the base frame (2) in an articulated manner by a first holding frame part (31) at a contact point (5), and ii. mounted or can be mounted with a second holding frame part (32) on a second base frame part (22) of the base frame (2) in such a way that the second holding frame part (32) of the holding frame (3) is in a plane parallel to a plane formed by the base frame (2). (20) lying plane and is displaceable perpendicular to this plane, and c) a milling or grinding machine (4) with a milling or grinding head (41), wherein i. the milling or grinding machine (4) is held by the holding frame (3) by means of a holder (7) in such a way that the milling or grinding machine (4) with its milling or grinding head (41) is held within the holding frame (3) in a the plane (30) formed by the holding frame (3) can be moved in the direction of the point of contact (5) and the second holding frame part (31) which is movably mounted on the second base frame part (22) of the base frame (2) and in the transverse direction thereto, and ii. the milling or grinding machine (4) with its milling or grinding head (41) can be displaced perpendicularly to the holding frame plane (30) formed by the holding frame (3) and by one parallel to the direction of the point of contact (5) and that on the second base frame part (22) of the base frame (2) displaceably mounted second holding frame part (32) oriented axis (8) is pivotable.

2. Device (1) according to claim 1, wherein - the base frame (2) is trapezoidal in design with a first base frame limb (23) enclosing the first base frame part (21) and a second base frame limb (24) arranged parallel thereto and enclosing the second base frame part (22),

- the holding frame (3) is trapezoidal in design with a first holding frame leg (33) encompassing the first holding frame part (31) and a second holding frame leg (34) arranged parallel thereto and encompassing the second holding frame part (32),

- the first holding frame leg (33) of the holding frame (3) is articulated to the first base frame leg (23) of the base frame (2) at the point of contact (5), and

- the second holding frame leg (34) of the holding frame (3) is fastened to a lifting column (6) which is displaceably arranged on the second base frame leg (24) and can be displaced along the lifting column (6) perpendicularly to the second base frame leg (24).

3. Device according to claim 2, wherein the first base frame leg (23) is shorter than the second base frame leg (24), and the holding frame (3) is rectangular.

4. Device (1) according to one of claims 2 or 3, wherein the lifting column (6) is displaceable by means of wheels (61) in a U-profile (28) fixed on the second base frame piece (24).

5. Device (1) according to any one of the preceding claims, wherein the base frame (2) and the holding frame (3) are metal profile frames.

6. Device (1) according to any one of the preceding claims, wherein the device (1) is portable.

7. Method for material processing of a frog point (102) of a frog (101) of a switch arrangement (100) of a track system with rails for rail vehicles with flanged wheels, in particular for reprofiling the frog point, comprising the following steps: a. Arranging a device (1) according to one of the preceding claims with the base frame (2) on a switch arrangement (100) in the region of the frog (101) of the switch arrangement (100), b. Fixing the device (1) by means of the fastening means (27) of the base frame (2) on the switch arrangement (100) in the area of the frog (101), c. Aligning the milling or grinding head (41) of the milling or grinding machine (4) in the holding frame (3) in relation to the frog point (102), and d. Milling or grinding the crossing point (102).

8. The method according to claim 7, characterized in that the alignment of the milling or grinding head (41) of the milling or grinding machine (4) takes place under laser control.