DE102012109122A1 - Sliding face element for e.g. ski jumping hills, has base element comprising opening which is arranged corresponding to sliding portion - Google Patents

Abstract

The slide face element (1) has a support (10), and a sliding surface (2) forming sliding system (3). The sliding system comprises a base element which is provided with an opening on which the support is arranged. The opening of the base element is arranged corresponding to the sliding portion.

Description

The invention relates to a sliding surface element for artificial ski installations, in particular ski jumping facilities, cross-country ski trails or gliding length, comprising at least one support and at least one sliding surface forming a sliding surface.

Such a sliding surface element is for example in the DE 20211137 U1 disclosed. This has a base element made of a polymer material in which ceramic bodies are fixed in a grid pattern spaced from each other, which project beyond defined with their end face on the base surface element. When used as intended, the Gleitflächenelementes it comes through the friction between the ski and the ceramic bodies to wear both on the surface of the ceramic body and on the sliding surface of the ski, both being worn differently depending on the particular type of material. A disadvantage of this sliding surface element is seen that in a wear of individual sliding elements or ceramic body they can not be replaced separately, but it must be the entire sliding surface element to be replaced. Another disadvantage is the fact that for the change in the number and / or the arrangement of the individual sliding elements or ceramic body each different sliding surface elements must be made, which is very costly both in the production and in storage. Another disadvantage is seen that the sliding properties of the Gleitflächenelementes are always the same due to the sliding elements or ceramic body, that is, these can not be adapted to the different seasons or weather or different materials of the ski.

The present invention has thus set itself the task to show a sliding surface element, which is economical and inexpensive to produce, easy to install, its use reduces the wear of both Gleitflächenelementes and the ski and the required conditions of use is quickly and easily customizable.

The object is achieved by a Gleitflächenelement according to the features of claim 1. Further advantageous embodiments are described in the subclaims.

It has surprisingly been found that a sliding surface element for artificial ski installations, in particular ski jump systems, cross-country ski tracks or gliding length, comprising at least one carrier and at least one sliding surface forming sliding system is characterized in that the sliding system comprises at least one base member having at least one opening, and can be arranged on the carrier, wherein in the opening of the base member at least one sliding element is arranged. Advantageously, it is possible by this Gleitflächenelement to remove each individual worn sliding systems by selective disassembly and replace it with new sliding systems. Furthermore, it is possible by the Gleitflächenelement invention, in addition to any arrangement of the sliding systems on the support of Gleitflächenelementes slip systems to install, which have different properties, so that, for example, in ski jumping systems mounted in the Absprungtisches slip systems differ from those in the actual inrun.

The sliding surface element according to the invention is advantageously designed so that the sliding element is arranged cohesively and / or non-positively in the base element of the sliding system. This makes it possible to produce the sliding systems economically and inexpensively.

Another advantage of the sliding surface element according to the invention is that the sliding surface of the sliding surface element is formed by the sliding element itself. As a result, the wear of the sliding system can advantageously be optimized or reduced by the choice of the materials of the sliding element, while the base element receiving the sliding element is subject to no or only insignificant wear.

It has also been found to be advantageous that, in the case of the sliding surface element according to the invention, the sliding element forming the sliding surface projects beyond the base element. As a result, a sliding surface element can be produced and / or installed economically and inexpensively both by the geometry and by the material of the sliding element, which can meet the different requirements of artificial ski installations.

Another advantage of the sliding surface element according to the invention is that the sliding element is designed as nub, cuboid, cylinder, pyramid, roller, hemisphere, ball and the like. As a result, on the one hand, the production of the sliding element can be realized inexpensively and variably, while the sliding surface element according to the invention can easily meet a wide variety of requirements of artificial ski installations as well as statutory provisions.

In the case of the sliding surface element according to the invention, it has furthermore proven to be advantageous for the sliding element to be a basic body and has a sliding surface forming the sliding body. This advantageous embodiment, it is possible to inexpensively produce the sliding element made of different materials or material combinations and adapt the components according to the requirements of the respective artificial ski facility.

It has also been found to be advantageous that, in the sliding surface element according to the invention, the base body of the sliding element has an opening. On the one hand, this has the advantage that the costs are manageable due to the reduced cost of materials and, on the other hand, the sliding element can be used without problems in the injection molding process known per se and can be formed into a sliding system with, for example, polymeric materials.

In a further likewise advantageous embodiment of the sliding surface element, the sliding body opposite the opening of the base body of the sliding element has approximately the same outer contour as the base body itself. On the one hand, this results in an economical production of the sliding element as well as for quick assembly of this sliding element in a non-positive base element of the sliding system.

Further advantageous in the sliding surface element according to the invention is seen that the opening of the base body opposite sliding body of the sliding element in approximately a twice as large base area as the main body itself. Through this advantageous embodiment, the sliding element can be produced inexpensively and wear the intended use wear body can be used longer by choosing this geometry.

It has also been found to be advantageous for the sliding surface element according to the invention that the sliding body is concave and / or convex on its surface arranged on the main body of the sliding element. As a result, in particular the sliding properties of the Gleitflächenelementes are optimally and variably ausbildbar.

Another advantage of the sliding surface element according to the invention is that the sliding body of the sliding element is arranged spaced from the main body of the sliding element via an undercut. This makes it possible that the sliding element is non-positively fixed by, for example, latching in the base member.

Another great advantage of the sliding surface element according to the invention is that the base element and / or the sliding element is made of metallic and / or polymeric and / or ceramic and / or silicate material. This can advantageously be designed so that the base element and the sliding element are made of the same material, for example of a polymeric material which is thermoplastically processable.

However, it is also within the scope of the invention that the base element and the sliding element are made of different materials. Here, it has advantageously been found that the sliding system comprises a base element, produced, for example, from a polymer or thermoplastically processable material, and that the sliding element meets the respective requirements of artificial ski facilities, in particular by producing a metallic or a ceramic material is. By metallic materials are meant in particular alloys, in particular iron alloys such as steel, cast iron or stainless steel. Also included are metallic materials of non-ferrous alloys such as brass, bronze and the like. By polymeric material is meant materials such as polyvinyl chloride (PVC); Polyolefin, such as polypropylene (PP) or polyethylene (PE); styrene-based polymer such as polystyrene (PS) or styrene-butadiene copolymer predominantly styrene (SB) or acrylonitrile-styrene-acrylic ester copolymers (ASA) or acrylonitrile-butadiene-styrene copolymers (ABS) or styrene-acrylonitrile (SAN); Polybutylene terephthalate (PBT); Polyethylene terephthalate (PET); Polyoxymethylene (POM); Polyamide (PA); Polymethyl methacrylate (PMMA); Polyphenylene oxide (PPO); Polyetheretherketone (PEEK); Polyphenylene sulfide (PPS); Liquid Crystal Polymer (LCP); Polyamide-imides (PAI); Polyvinylidene fluoride (PVDF); Polyphenylsulfone (PPSU); Polyaryletherketone (PAEK); Polyacrylonitrile (PAN); Polychlorotrifluoroethylene (PCTFE); Polyether ketone (PEK); Polyimide (PI); Polyisobutene (PIB); Polyphthalamide (PPA); Polypyrrole (PPY); polytetrafluoroethylene (PTFE); Polyurethane (PUR); Polyvinyl alcohol (PVA); Polyvinyl acetate (PVAC); Polyvinylidene chloride (PVDC); and mixtures of at least two of these materials. These polymeric materials have well-known fillers and / or reinforcing agents, which positively affect the mechanical properties, in particular glass fiber, glass beads but also fillers such as chalk, Teflon and the like.

The ceramic materials used are selected from the clay ceramics, porcelain, technical ceramics, composite ceramics, the oxide or non-oxide ceramics and the like.

Among silicate materials are glass or glass ceramics in particular, but also enamel.

This advantageous embodiment makes it possible to provide an inventive sliding surface element for artificial ski installations, which is not only inexpensive and economical to produce or assemble, but which can also be repaired at any time by use of new sliding systems in the intended use or by using new or different sliding systems as well as the different requirements for individual sections of the artificial ski facilities or the required different conditions of use is customizable.

A further advantage of the sliding surface element according to the invention is that it is also possible that additional damping elements can be attached to the sliding system, in particular to the base element, which advantageously allow a tolerance or vibration compensation between the carrier and the sliding system.

By choosing the geometry and / or the materials of the sliding and arranged in the base and / or sliding elements, it is possible, for example, by highly wear-resistant sliding elements of metallic or ceramic materials, interpret the sliding surface of the invention for very long lives.

However, it is also possible to equip individual sections of, for example, artificial ski systems with different sliding systems and successively grinding sliding elements, which compensate structural and / or climatic tolerances of the Gleitflächenelementes and so contribute to comfortable sliding and / or also to a noise reduction in accordance with the intended use of Gleitflächenelemente ,

The invention will now be described in more detail with reference to these non-limiting embodiments.

Show it:

1 perspective view of a sliding surface element according to the invention

2 partially sectioned side view of a Gleitflächenelementes invention with sliding system

3 Sectional view of a sliding element

In the 1 is a perspective view of a sliding surface element according to the invention 1 shown. This sliding surface element 1 for artificial ski facilities, in particular ski jumping facilities, cross-country trails or gliding, includes a carrier 10 as well as with a sliding surface 2 trained sliding systems 3 , The carrier 10 of the sliding surface element 1 is made in this embodiment of a polymeric material and has in its surface different spaced-apart openings 11 on. The differently dimensioned openings 11 of the carrier 10 serve to different sized or made of different materials slip systems 3 take. By the geometry, but also by the arrangement of the different openings 11 in the carrier 10 of the sliding surface element 1 it is thus possible, a sliding surface element 1 to make available, which is economical and inexpensive to produce or assemble, its use the wear of both the sliding systems 3 As well as the ski reduced and the according to the required conditions of use quickly and easily adaptable. The carrier 10 of the sliding surface element 1 is approximately rectangular in its outer contour in this embodiment. However, it is also within the scope of the invention that the carrier 10 of the sliding surface element 1 prismatic, square and the like may be formed. It is also within the scope of the invention that the carrier 10 of the sliding surface element 1 is made of metallic and / or polymeric and / or ceramic and / or silicate material. The openings 11 of the carrier 10 can be introduced in the actual production process, for example in the injection molding process known per se, but it is also within the scope of the invention that the openings 11 of the carrier 10 only later or even shortly before assembly on the artificial ski facilities can be introduced.

In the 2 is a partially sectioned side view of a Gleitflächenelementes 1 with sliding system 3 shown. The sliding system 3 includes in this embodiment a base member 4 which with the carrier 10 of the sliding surface element 1 positively connected. The sliding system 3 is in this example over at the base element 4 cohesively arranged fixing 43 in the opening 11 of the carrier 10 of the sliding surface element 1 fixed. The fixing elements 43 of the base element 4 are formed in this embodiment as oppositely arranged locking hooks. The basic element 4 of the sliding system 3 has an opening in this embodiment 40 on, in which a sliding element 5 is arranged. The sliding surface 2 is in this embodiment by the sliding element 5 and the base element 4 formed, which over the carrier 10 of the sliding surface element 1 survive. The sliding element 5 of the sliding system 3 is in this embodiment cohesively in the opening 40 of the base element 4 of the sliding system 3 arranged. The basic element 4 of the sliding system 3 has in this embodiment, viewed from above a circular geometry, the sliding element 5 centric in the base element 4 is arranged. However, it is also within the scope of the invention that the cross section of the base element 4 prismatic, square, oval, polygonal and the like is formed. The basic element 4 of the sliding system 3 is made in this embodiment of a polymeric material, polyoxymethylene (POM).

That in the base element 4 cohesively arranged sliding element 5 is made in this embodiment of a metallic material selected from the alloys, in particular the iron alloys namely a stainless steel such as X6CrMoS19-2. However, it is also within the scope of the invention that the sliding element 5 is made of non-ferrous alloys such as brass, namely a CuZn39.

The surface of the sliding element 5 of the sliding system 3 is configured convex in this embodiment and forms the sliding surface 2 of the sliding system 3 , The sliding element 5 has a body in this example 50 as well as the sliding surface 2 forming sliding body 51 on. The slider 51 as well as the basic body 50 of the sliding element 5 are circular in cross-section in this embodiment, wherein the slider 51 approximately twice as large as the base body 50 , In this embodiment, the sliding element 5 designed so that the slider 51 about an undercut 53 from the main body 50 spaced apart. The position of the undercut 53 of the sliding element 5 is chosen so that this one in the opening 40 of the base element 4 arranged nose 42 is fixed.

The opening 11 of the carrier 10 of the sliding surface element 1 is formed in this embodiment, circular with two different diameters, so that the fixing elements 43 of the base element 4 in the opening 11 the carrier 10 of the sliding surface element 1 engage forcefully behind.

In the 3 is a sectional view of a sliding element 5 shown. The sliding element 5 has a main body in this embodiment 50 as well as an undercut 53 spaced sliding body 51 on. The sliding element 5 is formed in this embodiment in its cross section around, wherein the body 50 opposite surface of the slider 51 is convex and the sliding surface 2 of the sliding system 3 forms. The main body 50 of the sliding element 5 has in this embodiment a slider 51 opposite opening 52 which, on the one hand, can serve to produce a sliding system 3 to simplify that the sliding element 5 over the opening 52 inserted into an injection mold and the base element 4 on or around the sliding element 5 is formed and on the other hand, an advantageous reduction of the cost of materials for the sliding element 5 realized.

However, it is also within the scope of the invention that the cross section of the sliding element 5 prismatic, square, oval, polygonal and the like is formed. The sliding element 5 is made in this embodiment of ceramic material selected from the clay ceramics, porcelain, engineering ceramics, composite ceramics and the like, namely silicon nitride ceramic.

It is also within the scope of the invention that the sliding element 5 in the base element 4 and / or the sliding system 3 with the carrier 10 of the sliding surface element 1 is connected via a latching and / or screw and / or a rotary locking connection. This makes it possible, for example, the sliding element 5 from the base element 4 and / or the sliding system 3 from the carrier 10 of the sliding surface element 1 to remove after a certain degree of wear and replace it with a new or a made of a different material.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 20211137 U1 [0002]

Claims (10)

Sliding surface element ( 1 ) for artificial ski facilities, in particular ski jumping facilities, cross-country trails or gliding lanes, comprising at least one support ( 10 ), as well as at least one sliding surface ( 2 ) forming sliding system ( 3 ), characterized in that the sliding system ( 3 ) at least one base element ( 4 ), which has at least one opening ( 40 ), as well as on the carrier ( 10 ) can be arranged, wherein in the opening ( 40 ) of the base element ( 4 ) at least one sliding element ( 5 ) is arranged, wherein the sliding element ( 5 ) cohesively in the base element ( 4 ) of the sliding system ( 3 ) is arranged. Sliding surface element ( 1 ) according to claim 1, characterized in that the sliding surface ( 2 ) by the sliding element ( 5 ) is formed. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the sliding surface ( 2 ) forming sliding element ( 5 ) via the base element ( 4 ) survives. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the sliding element ( 5 ) is formed as nub, cuboid, cylinder, pyramid, roller, hemisphere, ball and the like. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the sliding element ( 5 ) a basic body ( 50 ) and a sliding surface ( 2 ) forming sliding bodies ( 51 ) having. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the base body ( 50 ) opposing sliding bodies ( 51 ) has approximately the same outer contour as the main body ( 50 ). Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the base body ( 50 ) opposing sliding bodies ( 51 ) has approximately twice the base area as the main body 50 ). Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the sliding body ( 51 ) at its base ( 50 ) of the sliding element ( 5 ) arranged surface is concave and / or convex. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the sliding body ( 51 ) via an undercut ( 53 ) from the main body ( 50 ) of the sliding element ( 5 ) is arranged at a distance. Sliding surface element ( 1 ) according to at least one of the preceding claims, characterized in that the base element ( 4 ) and / or the sliding element ( 5 ) is made of metallic and / or polymeric and / or ceramic and / or silicate material.

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