NL1021990C2 - Rail construction with cladding structure. - Google Patents

Description

Short indication: Rail construction with a covering structure.

The invention relates to a rail construction for rail-bound vehicles, in particular tram or train.

Rail structures are known from the prior art which comprise a steel rail with a head forming a tread, a body 5 and a foot. In the case of rails that are continuously supported, the steel rail is provided over a substantially its entire length in the region of the foot and of at least a part of the body of the rail with a covering structure which leaves at least the running surface of the steel rail. There are also discreetly supported rails, for example with 10 sleepers, the covering structure covering sub-areas of the rail at an axial distance from each other.

Various coating structures are known from the prior art, which can be used depending on the arrangement of the rail and the requirements set.

For example, tram rails often involve embedding the rails in the road surface and the requirement is made that the covering structure must be electrically insulating. To this end, it is known by means of casting a thick electrically insulating plastic layer to provide the base and the sides of the steel rail. This is done in situ or in a workshop in a suitable mold in which the rail is placed.

For rail constructions, it is also known to provide a cladding structure with sound-damping properties, for example for non-embedded train rails. It is thereby known to glue preformed elements of damping plastic material to the body and the top of the base of the rails, so-called soul blocks. It is also known to provide a sound-damping covering structure, wherein use is made of casting of suitable plastic in a mold in which the rail is placed.

The known production methods for rail constructions with a covering structure are cumbersome and therefore expensive. Furthermore, the known production methods limit further development and optimization of the coating structure, which is desirable because of the ever increasing demands.

The invention has for its object to propose an alternative rail construction which can be efficiently manufactured and can be adapted to various requirements.

A first aspect of the invention relates to a rail construction I according to the preamble of claim 1, characterized in that the coating structure comprises one or more layers I applied in a spraying process.

The invention further provides a method for the manufacture of such a rail construction according to claim I 37.

The first aspect of the invention is based on the insight that the spraying of one or more layers is an efficient and well-executable technique when it comes to putting together a desired coating structure. The one or more layers can thereby have properties that are optimally matched to the requirements set and, moreover, different properties can be combined in an attractive manner in one coating structure.

A second aspect of the invention relates to a rail structure according to claim 32, wherein the cladding structure comprises one or more preformed elements with a shape substantially complementary to the rail.

The invention further provides for the combination of spraying one or more layers and the use of one or more preformed elements in a rail construction with a cladding structure.

Various advantageous embodiments of the rail constructions according to the first and / or second aspect of the invention are described in the subclaims and in the following description with reference to the drawing. It shows:

Figs, la-c show various embodiments of the method according to the invention, H Figs. 2a-c in sectional rail constructions obtained with the H 35 methods according to figures la-c,

FIGs. 3a, 3b examples of rail constructions with a multi-layer cladding structure, - 3 -

FIGs. 4a, 4b examples of rail constructions with a sprayed-on layer and a preformed covering element,

FIGs. 5a, 5b show examples of rail constructions with a thickened rib obtained by spraying near the head of the rail, 5 Figs. 6a-e examples of rail constructions in which spraying and preformed elements are used for the manufacture of the cladding structure,

FIGs. 7a-c show examples of rail constructions in which the covering structure is provided with grip-improving particles, Figs. 8a, 8b examples of rail constructions provided with an elastic element under the rail foot,

FIGs. 9a, 9b examples of rail constructions where the cladding structure has an outer layer with a lower coefficient of friction, Figs 10a-d examples of sound-damping rail constructions,

Figs, 11a-c rail constructions embedded in a concrete slab,

FIG. 12 a rail construction attached to a surface,

FIG. 13 an example of a rail construction according to the second aspect of the invention, and FIG. 14 another example of a rail construction according to the second aspect of the invention.

In figure 1a an elongated steel tram rail 1 can be recognized in view from the head with a head 2, which forms a tread 3, a body 4 and a foot 5.

Figure 1a schematically shows three nozzles 7, 8, 9, with which one or more layers 11 are provided on the foot 5 and the sides of the body 4 and the head 2 over substantially the entire length of the rail 1, which form the covering structure of the tram rail construction 10 as shown in figure 2a. In this example, this layer or layers 11 form the entire coating structure and leave the top of the head 2 of the rail 1 free.

In a variant (not shown) it is provided that the covering structure extends over a plurality of axial subareas, which are spaced apart, for example because the rail is intended for discrete support with the use of sleepers.

In the embodiment according to Figure 1b, a steel rail 15 with head 16, body 17 and foot 18 is also coated with one or more layers 22 as shown in the cross section of I by means of nozzles 19, 20, 21 figure 2b of rail construction 25. The top side of the head 16 and a side of the head 16 are hereby covered with cover body 23 during spraying.

Figures 1c and 2c show a variant of Figures 1b, 2b, wherein both sides of the head 16 are covered by cover body 23a during spraying, so that rail construction 26 is obtained.

The spraying on of the one or more layers can take place in a workshop or at the location of the construction, renovation or repair of the rail. Because of the possibility of controlling the conditions, it will be preferable for the spraying to take place in a suitable workplace.

Optionally, spraying involves removal of the mill scale and / or corrosion, contamination beforehand, for example by sand or grit blasting, and optionally a (chemical) pre-treatment may take place, for example the application (preferably spraying) of a primer.

In the methods according to Figs. 1a-c, a layer applied in a spraying process adheres directly to the steel rail 1, 15, the layer having a controlled thickness.

For obtaining sound-damping and / or vibration-insulating properties of the rail construction, it is preferred that a spraying process applied layer is made of an elastic material.

For the purpose of preventing rusting and in the context of electrical insulation, it is preferred that a layer applied in a spraying process is watertight.

With a practical advantage, a layer applied in the spraying process is a plastic layer, for example, the layer contains polyurethane or a related plastic, such as a polyurea.

- 5 -

In another advantageous embodiment, a layer applied in a spraying process is of a visco-elastic material.

A layer 5 applied in a spraying process is preferably electrically insulating.

Preferably, if the coating structure is composed of one or more layers, this structure has at least a thickness of 2 millimeters, particularly preferably a thickness between 4 and 10 millimeters, most advantageously between 5 and 15 millimeters. This thickness range is particularly desirable if the coating structure aims for an elastic effect.

In a possible embodiment, a layer of filling particles applied in a spraying process comprises, for example, foam balls, glass beads, metal particles, etc.

Advantageously it is provided that several layers applied in a spraying process are superimposed with mutually different properties. In an advantageous version thereof, the stiffness properties of the layers are mutually different.

In a possible embodiment, the coating structure is composed of one or more layers sprayed directly onto the rail and the coating structure has a lower density in a zone near the steel rail than in a further outward zone of the coating structure. Optionally, fill particles are used to achieve the intended density.

In a possible embodiment, the coating structure is completely composed of one or more layers applied in a spraying process, wherein the coating structure contains pores and the pore size in a zone near the steel rail is larger than in a further outward zone of the coating structure.

35

With the rail constructions 10, 25 shown in figures 2a-2c, the body of the rail 1, 15 is always completely covered on both sides by the covering structure. However, it is also conceivable that

1 02199D

- the cladding structure only covers the base of the rail and a lower part of the body of the steel rail.

Figures 3a and 3b show rail constructions 29, 30, wherein two layers, 29a, 29b and 30a, 30b, respectively, are applied to the steel rail 1, 15, for example an electrically insulating layer and an elastic layer, or an elastic layer. , for example a foam layer, and over it a solid, less elastic layer.

10

Figures 4a and 4b show rail structures 35, 38, with a thin layer 36, 39 plastic material on the steel rail 1, 15 in the area of the foot and the sides of the body, and in Figure 1 also the head is sprayed that attaches itself to the rail. In the period that said layer 36, 39 has not yet hardened, as soon as possible after spraying, a flexible preformed covering element 37, 40 is applied around the foot and along the sides of the rail 1, 16. For example, the elements 37 40 of a suitable rubber or elastomer made in a mold. The layer 36, 39 then acts as an sprayed-on adhesive layer for the preformed covering element.

The elements 37, 40 shown are designed in one piece and extend substantially over the length of the rail. In a variant, the elements 37, 40 only cover part of the length of the rail.

25

Figures 5a, 5b show rail constructions 41, 42, wherein a thickened rib 11a, 29c is formed by spraying suitable material on both sides of the head of the rail 1, 15.

30

Figures 6a-e show rail constructions 50, 51, 52, 53, 54, wherein for manufacturing the covering structure use is made of spraying one or more layers and of preformed elements which are adhered to a sprayed-on layer the rails 1, 15 and are covered by a sprayed-on layer.

In Figures 6a, 6b, 6e, resonance elements 55 are attached to either side of the body of the rail 1 by first spraying a layer of, for example, suitable plastic material onto the rail 1, 16. Subsequently, the resonance elements 55 are it was embedded in that plastic by spraying again, covering the resonance elements.

Of course, it is also conceivable to make the first layer from a different material than the following layer or layers.

In figures 6c and 6d, hollow box bodies 57 are provided in the same manner as explained above.

10

It is also conceivable that the bodies 55, 57 only have the function of a filling body in order to save material and spraying costs. For example, plastic foam elements can then be used as preformed elements.

15

In Figs. 7a-d, rail constructions are shown, wherein the cladding structure extends into the region of a side of the head of the rail and wherein grip-improving particles 58 are embedded in the upper part of the cladding structure at the height of the side of the rail. headline.

Figures 8a and 8b show rail constructions 60, 62, an elastic element 61, 63 being provided under the base of the steel rail 1, 15. The element 63 even extends along the sides of the foot.

In a possible embodiment, the elastic element is preformed and coated with a layer 11 applied in a spraying process.

In another version, the elastic element 61, 63 is formed by a layer applied in a spraying process.

Figures 9a and 9b show rail structures 65, 66, an outer layer 67.68 of the coating structure having a low coefficient of friction, for example a layer of PTFE.

35

Figures 10a-d show sound-damping rail constructions, the rail 15 being provided with a sound-damping covering structure.

1021990 H In Figure 10a, preformed elements 75, for example made of plastic foam, are arranged on either side of the body of the rail 15. To that end, an adhesive layer is sprayed onto the rail 15 H. The outside of the preformed elements 75 (soul blocks) and of the base of the rail as well as an area at the bottom of the head of the rail are coated with one or more layers in a spraying process. For example, a single layer 76, with a thickness of H, is several millimeters, for example more than 5 millimeters, of an elastic plastic, such as, for example, a polyurethane.

In figure 10b, sound damping is provided by means of resonance bodies 77, which are embedded next to the body of the rail in a layer of deformable material, for example a layer of plastic. All of this is then again covered with an outer layer of H 79 sprayed on.

. In figure 10c there is also talk of damping with a sandwich structure with rigid bodies 80, which extend at a distance along the body and the foot of the rail. A layer 81 of a visco-elastic material, for example a layer of plastic, is sprayed on either side against the body and the top of the foot as well as the bottom of the head of the rail. Before that layer 81 hardens, the bodies 80 are arranged which then adhere to the rail via the sprayed-on layer 81. Next, an outer cover layer 82 is provided which fills the outwardly open recess in the bodies 80 and also completely covers the bodies 80 and the base of the rail. This layer 82 is, for example, of a different quality than the layer 82. For example, the layer 81 is very elastic and the layer 82 is watertight and electrically insulating.

Figure 10d shows a variant in which on each side of the body of the rail a plurality of resonance bodies 84, 85 are provided, which are adhered to the rail by sprayed on layers 86, 87 and covered by an sprayed on outer layer 88.

Figure 11a shows an embodiment of the embedding of two rail constructions 10 next to each other in a concrete slab 100, wherein an elastic mat 101 is placed between the concrete slab 100 and the environment to reduce annoyance to the environment.

*! O O r \, r \ - 9 -

In Figure lib, the mat 101 is replaced by strips 102 or other molded parts of elastic material and in Figure 11c by springs 103.

Figure 12 shows a possible attachment of a rail construction to a substrate (not shown) prior to embedding in, for example, concrete.

Figure 13 shows a rail construction according to the second aspect 10 of the invention, schematically during assembly. The steel tram rail 1 can be recognized. The cladding structure is composed of preformed elements, which here are designed as shell parts 110, 110 which are placed on either side against the rail 1, such that the shell parts 110, 110 extend below the base of the rail and 15 connect to each other there. Furthermore, each shell part 110 has an upright wall corresponding to the contour of the rail, so that the sides of the rail are in any case covered by the lower part of the body of the rail. In the example shown, the sides of the rail are completely covered by the shell parts 110. The shell parts in this example have a shorter length than the steel rail, which increases the manageability. At lower longitudinal edges and at the ends, the shell parts 110 are provided with a coupling formation, so that no open seams are formed between the shell parts.

25

Preferably, it is provided that the shell parts are fixed by spraying an adhesive layer on the rail. To that end, use may be made of a mobile or portable spraying device. As mentioned earlier, it is conceivable that the shell parts 110 after being placed against the rail are still coated with one or more layers in a spraying process. The rail construction according to Figure 13 can finally be embedded in, for example, a concrete plate, asphalt road surface or the like.

Figure 14 shows a variant of Figure 13, wherein the rail 1 is also provided with a cladding structure with preformed shell parts 120, which rail construction is then embedded in a concrete slab 100.

1021990

Claims (37)

Claims 1. Rail construction for rail-bound vehicles, in particular tram or train, which rail construction comprises a steel rail with a head forming a tread, a body and a foot, the steel rail substantially over its entire length or over one or more axial sub-regions in the area of the foot and of at least a part of the body of the rail is provided with a covering structure which at least leaves the running surface of the steel rail, characterized in that coating structure comprises one or more layers applied in a spraying process. Rail construction as claimed in claim 1, that a layer applied in a spraying process adheres directly to the steel rail. Rail construction as claimed in claim 1 or 2, which is a layer of an elastic material applied in a spraying process. 4. Rail construction as claimed in one or more of the foregoing claims, wherein a layer applied in a spraying process is watertight. 5. Rail construction as claimed in one or more of the foregoing claims, wherein a layer applied in a spraying process is a plastic layer. Rail construction as claimed in one or more of the foregoing claims, wherein a layer applied in a spraying process is of an H visco-elastic material. Rail construction as claimed in one or more of the foregoing claims, wherein a layer H applied in a spraying process is electrically insulating. Rail construction according to claim one or more of the preceding H claims, wherein a plurality of layers applied in a spraying process are superimposed with mutually different H properties. - 11 - Rail construction according to claim one or more of the preceding claims, wherein the stiffness properties of the layers are mutually different. 5 10. Rail construction as claimed in one or more of the foregoing claims, wherein the coating structure is completely composed of one or more layers applied in a spraying process, preferably with a thickness of at least 2 millimeters, particularly preferably with a thickness between 4 and 20 millimeter, more particularly between 5 and 15 millimeters. 11. Rail construction as claimed in one or more of the foregoing claims, wherein the cladding structure in a zone near the steel rail has a lower density than in a zone of the cladding structure that is further outward. 12. Rail construction as claimed in one or more of the foregoing claims, wherein the coating structure is completely composed of one or more layers applied in a spraying process, wherein the coating structure contains pores and the pore size in a zone near the steel rail is larger than in a further outer zone of the cladding structure. Rail construction according to one or more of the preceding claims, wherein the cladding structure completely covers the web of the steel rail. 14. Rail construction as claimed in one or more of the foregoing claims, wherein the covering structure at least partially covers the sides of the head of the rail. 15. Rail construction as claimed in one or more of the foregoing claims, wherein the covering structure further comprises one or more preformed elements. 16. Rail construction as claimed in claim 15, wherein the coating structure comprises a layer applied directly to the steel rail * 021000 I - 12 - in a spraying process and wherein the one or more preformed elements adhere to the layer applied in a spraying process. 17. Rail construction as claimed in one or more of the foregoing claims 15-16, wherein a one-piece preformed element extends over substantially the length of the rail. 18. Rail construction as claimed in one or more of the foregoing H claims 15-16, wherein a series of preformed elements, preferably contiguous, extend over substantially the length of the rail. 19. Rail construction as claimed in claim 17 or 18, wherein a preformed element or a series of preformed elements extends along the body of the rail. Rail construction as claimed in one or more of the foregoing claims 15-19, wherein the one or more preformed elements are covered with one or more layers applied in a spraying process. Rail construction according to one or more of the preceding claims 15-20, wherein the one or more preformed elements are made of plastic. Rail construction as claimed in one or more of the foregoing claims 15-20, wherein the one or more preformed elements are made of plastic foam. 23. Rail construction as claimed in one or more of the foregoing claims 15-22, wherein the one or more preformed elements form one or more rigid bodies, for example for resonance bodies or bodies which form a sandwich structure with the rail. 24. Rail construction as claimed in one or more of the foregoing claims, wherein an elastic H element is provided under the base of the steel rail. - 13 - Rail structure according to claim 24, wherein the elastic element is preformed and coated with a layer applied in a spraying process. Rail structure according to claim 24, wherein the elastic element is formed by a layer applied in a spraying process. 27. Rail construction as claimed in one or more of the foregoing claims, wherein a layer 10 applied in a spraying process contains polyurethane. A rail construction as claimed in one or more of the preceding claims, wherein in a spraying process layer applied directly to the steel rail has at least a thickness of 2 millimeters. 15 29. Rail construction according to one or more of the preceding claims, wherein the layer applied in a spraying process contains filler particles. A rail structure as claimed in one or more of the preceding claims, wherein the cladding structure extends into the region of a side of the head of the rail and wherein grip enhancing particles are embedded in the upper part of the cladding structure at the height of the side of the rail. headline. 25 The rail structure of any one of the preceding claims, wherein the cladding structure comprises an outer layer of a material with a low coefficient of friction. 32. Rail construction for rail-bound rail vehicles, in particular tram or train, which rail construction comprises a steel rail with a head with a tread, a body and a foot, the steel rail being substantially over its entire length or in one or more axial sub-regions in the region of the foot and at least a part 35 of the body of the rail is provided with a coating structure while leaving at least the tread of the steel rail, characterized in that the coating structure comprises one or more preformed elements with a form substantially complementary to the rail. 102i3 ö 0 I - 14 - Η The rail structure of claim 32, wherein the cladding structure comprises preformed elements placed on H on each side against the steel rail. A rail construction as claimed in claim 32, wherein the cladding structure comprises a flexible preformed element with a one-piece elongated body, which is arranged to be placed on the base and the web of the steel rail. A rail construction as claimed in claim 32, wherein a series of preformed elements is placed on either side against the rails, which ends connect with each other at their ends. 36. Rail construction according to one or more of claims 32-35, wherein the preformed elements are coated with a layer applied in a spraying process. 37. Method for manufacturing a rail construction for rail-bound vehicles, in particular tram or train, which rail construction comprises a steel rail with a head forming a tread I, a body and a foot, the steel rail over essentially its entire length or in one or more axial subareas in the area of the foot and of at least a part of the body of the rail is provided with a covering structure which at least leaves the running surface of the steel rail, with the characterized in that the coating structure I comprises one or more layers that are applied in a spraying process.