FR2590179A1 - Plastic ski - Google Patents

Abstract

a. Plastic ski. b. The invention relates to a plastic ski with inserted components, appropriate, particularly, for the new "siitonen" and "skating" race techniques. According to the invention, a profiled element, running on the inner edge of the ski, visible above the running sole 8.2, is arranged in the ski. This profiled element is formed such that it has end zones which are bent into the shape of a shovel and which pass through the neutral fibre of the ski. By virtue of the arrangement of the profiled element, the ski receives the necessary stability and floating of the tip of the ski and of the end of the ski is prevented. c. The invention guarantees satisfactory transmission of the force of the skier's foot to the inner edge of the ski.

Description

 The invention relates to a plastic ski comprising inserted components and employing a cover component and a sole component as well as a plastic foam, which is particularly suitable for new ski racing techniques, "siitonen" and "skating".

In recent years, "siitonen" and "skating" techniques have been increasingly introduced in the cross-country ski race. Skis for this style of racing are distinguished from traditional skis by the fact that - they are not waxed, homogeneously, over the entire surface of
race, than with wax, - they are more stressed on the inner side of the surface
on the outside, - they slightly facilitate the transmission of force between the
runner's foot and the ground, through skiing, since
have to overcome a weak prestress, - they are as light as possible for an adequate safety
at the breakup.

 These requested characteristics are only partially achieved in the case of traditional skiing.

 According to the patent application in RFA2 014025, a ski is known which consists of a basic structure made of a skeleton of plastic or metal material. The skeleton is executed in one piece with parts of side walls, ribs which run transversely and longitudinal reinforcement ribs. This skeleton is then filled with a filling and connecting mass, preferably plastic, the ski guide edges being fixed against the frame of the skeleton.

 As a result of the arrangement at a right angle of the sides of the side walls, of the ribs and of the skeleton guide edges, the force is transmitted by the runner symmetrically to the skeleton of the ski, so that there is no no direct transmission of force between the runner and the inner edge of the ski and that one cannot therefore dominate with this ski the new techniques of advance in cross-country skiing.

 According to Austrian patent 371 344, a ski is known which has an inserted lining forming a core resistant to torsion in the manner of a composite body consisting of at least one longitudinal belt in the form of a plate and a profile in the form of a zigzag or in waveform or the like, it being specified that the profile and the longitudinal belt are joined together under guides which run transversely with respect to the longitudinal direction of the ski and that the profile is placed on a base plate intended as a single longitudinal belt and embedded in an elastic filling material.

 In the case of this embodiment of the ski, it is disadvantageous that, of course, torsional rigidity is obtained over the width of the ski, because the stabilizing elements are respectively arranged transversely to the direction of the race and also that the sizing of the profile can be done over the entire length of the ski; however, torsional rigidity is not obtained in the longitudinal direction of the ski.

In addition, high resistance is not obtained on the inside edges, in the middle of the ski, over a fairly large area, due to the stabilizing elements arranged transversely to the direction of the race, so that here also direct transmission of force is not obtained between the skier's foot and the inner edge of the ski with torsional rigidity, in particular in the middle region of the ski.

 Finally, there is also known, according to the patent application in FRA 2 913 250, a ski made of hard foam product which has a reinforcement in the connection zone, which is executed in the form of a grid of thermoplastic material and which also has branches which have come laterally shaped as flat shaped upwards which support the lining inserted with prestress between the sole and the upper layer. However, the grid is only used for the stabilizing fixing of the link stop screws. There is no increase in the torsional rigidity of the ski, nor an improvement in the transmission of the force of the foot from the skier to the inner edge of the ski.

 The object of the invention is therefore to create a plastic ski comprising inserted components and employing a cover component and a sole component as well as a plastic foam for new ski racing techniques such as the "siitonen". or the "skating", which, in the phase in which one exerts a push, guarantees a direct transmission of the force of the foot of the skier to the inner edge of the ski, it being specified that the ski presents the necessary stability and that one appreciably prohibits the tip of the ski and the end of the ski from floating.

 According to the invention, this object is achieved by the means that in the central region of the ski a profiled element, preformed, situated against the inner side of the ski, seen according to the section of the ski, above the component forming the sole and coming from connecting to the inner side of the ski is arranged in such a way that immediately behind the contact line constituting the sole and the bridle edge, the profiled element is folded down at an angle <from 5 to 45 degrees relative to the inner side of the ski in direction of the covering constituent in the form of a lateral part up to the immediate vicinity of the covering constituent, then, from there, runs parallel to the covering constituent, in the form of the middle zone of the stabilization plate and then ends at this level in the ski in the form of an inserted lining or goes as far as the component of the sole forming an angle 5 of 5 to 45 degrees relative to the interior side of the ski in the form of lateral parts of the profiled element; it being specified that the clamping edge of the profiled element is disposed approximately in the middle of the ski, in the longitudinal direction of the ski, visible on the inside of the ski in the form of an edge reinforcement, so that its length, added at the length of the ski, reaches about 20 to 50 percent and the profiled element is designed longer than its visible area so that the end areas of the stabilization plate exceed, on both sides, the middle area from the profiled element to a maximum length of two-thirds of the length which remains up to the tip of the ski or to the end of the ski; and that the stabilization plate is bent, in these end zones, in such a way that the stabilization plate arrives in the immediate vicinity of the sole forming component, it being specified that the stabilization plate ends in the form of a shovel in its zones d 'end.

 The profiled element is made of materials and material complexes which have a higher density than polyurethane foam, it being specified that preferably, to have a better connection with the plastic material, these zones can be provided with circular, triangular recesses , rectangular, square and / or diamond. The characteristic of polyurethane foam to form condensed areas on the surface, as well as on the interior surfaces, leads for the profiled element of the ski to an improvement in its qualities, as does the complementary design of hard foam areas. The design and arrangement of the profiled element guarantees a solid seat in the event of stress on the edges and prevents tearing from the running sole as much as from the inner face of the ski. At the same time, with the stabilization plate, a binding is obtained and, in the ski environment, higher rigidity. This guarantees a less spring effect in the middle zone of the ski in the phase in which a thrust is exerted. Since the hidden ends of the stabilization plate pass through the neutral fibers of the ski, the intended influence on the stiffness of the ski is possible, it being specified in particular that the fact that the end zones end in the shape of a shovel guarantees a regular transition of the flexion line of the ski, which favorably influences the overall behavior at flexion. Flutter in the area of the tip of the ski as well as the end of the ski is significantly reduced.

 It is interesting that the clamping edge of the plastic ski serves as edge reinforcement and extends beyond the width of the ski from 1 to 5 mm on the inside of the ski. This has the advantage that, for a fairly high stress on the ski, there is less wear on the inside of the ski.

 The solution according to the invention is explained in detail below using an exemplary embodiment.

Figure 1 is a top view of the blank used to manufacture a profiled element;
2 shows the section of the middle area of the profiled element of Figure 3;
Figure 3 shows in perspective the profiled element;
FIG. 4 represents the section of the mold for the foam product, with the profiled element inserted, the injection of foam being completed;
Figure 5 shows a cross with recess
Figure 6 shows the section of the finished straight ski.

 We first describe the structure of a profiled element which serves as an inserted lining for skiing. The profiled element according to FIG. 1 consists of a blank 1, for example made of metal, the dimensions of which are chosen according to the geometry of the ski. The blank 1 has a rectangular stabilization plate 4 with rounded edges; In the central area 4.0 of the stabilization plate 4 is connected, on the one hand parallel to the line 4.1, an inner lateral part 6 and, following and parallel to the line 6.1, a clamping edge 5. From the on the other hand, an external lateral part 7 is located parallel to the line 4.2. Next to its median zone already mentioned 4.0, the stabilization plate 4 has end zones 4.3; 4.4 which have round or rectangular recesses 2 or notches 3 of any shape. The blank 1 according to FIG. 1 is preformed into a profiled element, in a known press, and has in its central zone 4.0 a section as shown in FIG. 2.

 The end zones 4.3; 4.4 of the stabilization range 4 have the shape of a shovel and, according to FIG. 3, are bent downwards with a radius which is greater than the bending radius of the finished ski.

 The clamping edge 5 is used for fixing the profiled element in a foam injection mold 12. At the same time the clamping edge 5 constitutes an edge reinforcement 13 in the middle zone of the ski. This edge reinforcement 13 is visible on the finished ski in the lower zone of the interior side of the ski 14, immediately above the component forming the sole 8.2.

 According to Figure 4, the foam injection mold 12 for manufacturing the plastic ski consists of a base body 12.1, two cross members 10 which form a rectangle and are placed on the base body 12. and d a cover 12.2 which rests on the crosspieces 10 with the interposition of a component forming a cover 8.1. One of the two crossbars 10 forming a rectangle has, according to FIG. 5, a recess 11 in which the clamping edge 5 of the profiled element is pushed after having placed the sole forming component 8.2 in the base body 12.1. The component forming a cover is placed between the cover 12.2 and the cross-pieces forming a rectangle 10. The foam injection mold 12 is placed in a press with, inserted, the components of the ski, the components forming the cover 8.1, the component forming the sole 8.2 as well as the profiled element fixed by the clamping edge 5, it is put under a pressure of 5 to 10 bars and injected with polyurethane foam 9 or another foaming plastic product.

 The polyurethane foam also penetrates into the square or round recesses 2 or into the notches 3 which are specially located in the end zones 4.3; 4.4 of the stabilization plate 4 and there is thus an intimate connection between the inserted profiled element and the polyurethane foam as well as the component forming the cover 8.1 and the component forming the sole 8.2. The crosspieces 10 limit the lateral edges of the ski.

During foaming and subsequent hardening, the polyurethane foam forms condensed areas on the surface, for example the outer edge, of a part, of the ski. This effect also occurs on the interior surfaces, that is to say that the profiled element still produces, practically next to it, zones of hard foam condensed in the ski which also positively influence the characteristics required of the ski.

 After a certain hardening time, the ski produced by this process is removed from the foam injection mold 12 which, after recovery of the edges, has, in the middle zone 4.0, the section shown in FIG. 6. In addition, according to FIG. 6, the profiled element is folded down in the form of internal lateral parts 6, at an angle -A of 5 to 45 degrees relative to the internal side 14 of the ski, in the direction of the component forming cover 8.1. and up to the immediate vicinity of this constituent and, as stabilization plate 4.0, it is parallel to the covering constituent 8.1. In the form of an external lateral part 7, the profiled element has an angle rz of 5 to 45 degrees relative to the internal side of the ski 14, in the direction of the sole forming component 8.2. The profile element can also be executed without the side part 7.

 The contoured lining is placed approximately in the center of the ski. The clamping edge 5, forming edge reinforcement 13, is then visible on the inside of the ski 14, that is to say that it stops with the inside of the ski 14 or that it exceeds the width ski from 1 to 5 mm. The middle zone 4.0 of the profiled element or of the stabilization plate 4, which has on its outside side the clamping edge 5 according to FIG. 2, has a length of 20 to 50% of the total length of the ski.

The end area 4.3; 4.4 of the stabilization plate 4 is dimensioned so as to represent at most two-thirds of the length which remains respectively between the end of the middle zone 4.0 and the tip of the ski or the end of the ski.

The stabilization plate 4 serves, in collaboration with the folded side parts 6; 7, to increase the breaking strength. Furthermore, a better connection fixing is obtained by screwing the connection fixing screws in the stabilization plate 4. Thanks to the arrangement of the lateral part 6 at an angle of at least 5 degrees, it is possible to tear off the parts. side of the ski.

 Due to the shape of the profile according to FIG. 2, the ski receives a determined prestress which, preferably, is less than that existing in the case of the traditional ski, which guarantees an equal or even greater breaking strength of the ski. The prestress can be individually adapted to the needs of the skier thanks to a special dimensioning of the lining inserted in the ski. This allows an optimal transmission of the force between the runner and the sporting article and makes it possible to avoid races of too great elasticity and an excessive oscillation of the ski.

Claims (2)

 1. Ski made of plastic comprising constituents inserted and employing a component forming a cover and a constituent forming a sole as well as a foam of plastic material for the new techniques of ski racing such as "siitonen" or "skating", characterized in that in the middle region of the ski a profiled element, preformed, located against the inner side of the ski (14), seen according to the section of the ski, above the component forming the sole (8.2) and coming to connect to the inner side of the ski (14) is arranged in such a way that immediately behind the contact line constituting the sole (8.2) and the clamping edge (5), the profiled element is folded down at an angle d from 5 to 45 degrees relative to the side interior of the ski (14) in the direction of the covering constituent (8.1) in the form of a lateral part (6) as far as the immediate vicinity of the covering constituent, then from there runs parallel to the covering forming constituent (8.1) in the form of med area iane (4.0) of the stabilization plate (4) then ends at this level in the ski in the form of an inserted lining or even goes into the area of the sole component (8.2) at an angle pz of 5 to 45 degrees by relative to the inner side of the ski (14) in the form of lateral parts (7) of the profiled element; it being specified that the clamping edge (5) of the profiled element is disposed approximately in the middle of the ski, in the longitudinal direction of the ski, visible on the interior side of the ski (14) in the form of edge reinforcement (13 ), so that its length, relative to the length of the ski, reaches approximately 20 to 50 percent and that the profiled element is designed longer than its visible area so that the end areas (4.3; 4.4) of the stabilization plate (4) extend, on both sides, the middle zone (4.0) of the profiled element to a maximum length of two-thirds of the length which remains up to the tip of the ski or up to the end of the ski; and in that the stabilization plate (4) is curved, in these end zones (4.3;  4.4), in such a way that the stabilization plate (4) arrives in the immediate vicinity of the sole component (8.2), it being specified that the stabilization plate (4) ends in the shape of a shovel in its end zones (4.3 ; 4.4).  2. Skienmatièreplastiqueselon claim 1, characterized in that the clamping edge (5) forming edge reinforcement (13) on the inner side of the ski (14) projects the width of the ski from 1 to 5 mm.