WO1988001189A1 - Ski with compensating elements and pressure members - Google Patents

Abstract

A ski suitable for various types of skiing sports is composed of a central part (1), a front part (2) and a back part (3). The central part (1) is longer than the section taken by the ski binding, including the space located between the binding parts, box-shaped (with a rectangular or trapezoidal cross-section or an arched upper side) and essentially rigid. The front (2) and back (3) parts, basically elastic and resilient in the vertical direction and twistable in the longitudinal direction, have in their areas (4) adjacent to the central part (1) compensating elements (5, 16) made of soft, yet durable elastic solid materials (soft plastics, silicone rubber among others), pressure members (6, 7, 17, 19) being additionally arranged in the back (3) and/or in the front (2) parts of the ski.

Description

Ski with compensating elements and pressure bodies

The invention relates to an alpine ski for use in the various disciplines of skiing (downhill skiing, slalom, giant slalom, touring skiing, skiing, etc.), with different types of slopes and in all types of snow that occur.

The problem for the skier and accordingly also for the ski manufacturer is to have a ski available which is suitable for different ski sports, different terrain formations, the different types of slopes and their different properties as well as the different types of snow to be found can be used and is easy and safe to drive. Because with the exception of pure sports operation in 5 which participants each for the specific application ^• a best possible way, designed special skis available, it is for the normal Skisport- ^"ler different even for reasons of transport is not possible, a plurality ski with them This group of ski athletes, which is far outnumbered, also strives to change the disciplines of skiing practiced at short notice and is constantly encountering different types of slopes and terrain as well as different snow conditions.

Ersaizb.att Special problem areas for such a universally usable ski are the front part up to the transition into the shovel and the rear part, the behavior of which is of crucial importance for easy and safe driveability (turning ability, directional stability, freedom from flutter, avoiding the risk of jamming, etc.).

Almost all manufacturers of skis have already tried to create such universally usable skis. For this purpose, the most varied of materials or material combinations and also different dimensions of the ski were selected. All these known constructions, however, have the disadvantage that the selected material or the material combination and the respective structure of the ski cannot be changed, that is, they cannot change according _to the different circumstances, in particular the ^* different types of slopes, terrain formations and special features of the various disciplines of skiing , can adjust. Therefore, compromises had to be made in the well-known combi or all-round skis, which ultimately lead to the fact that the skis do not guarantee optimal skiing characteristics in any discipline. If a softer design of the ski was chosen, there is a risk of a lack of directional stability and fluttering on hard and fast, level slopes. Conversely, if a harder configuration has been chosen, unsatisfactory driving characteristics occur in hilly terrain and especially on soft slopes and deep snow.

^{• ≤} With the creation of a ski with compensating elements according to the applicant's invention, which is the subject of the German patent application P 35 27 996.6, a significant step in the development of the creation of the ski which can be used universally without impairing the skiing properties has already been achieved. That invention still has the disadvantage, however, that the mechanical devices mainly provided there for changing the stiffness, elasticity and torsion of the ski only permit adjustability in the coarse grid, but not continuous fine adjustment. In addition, the solutions proposed there have proven to be capable of further development in the direction of easier usability and greater operational reliability.

The invention has for its object to provide a ski of the type mentioned, in which, while avoiding the disadvantages of the known constructions, adaptation to different slopes, different snow conditions, to the particular discipline of skiing and to different terrain formations is achieved by optionally changing stiffness and torsion in the area of the front part and / or the rear part of the ski.

This object is achieved according to the invention by the features stated in the characterizing part of patent claim 1. Advantageous embodiments of the invention are listed in the subclaims. The following is a description of exemplary embodiments of the invention with reference to drawings. Show Dat 1

1 shows a side view of the ski with compensating elements in the front part and rear part without the pressure bodies according to the invention;

2: the ski according to FIG. 1 in supervision;

3: the ski according to FIGS. 1 and 2 with pressure bodies in the form of bracket elements and adjusting screws attached therein on the front part and on the rear part of the ski, in supervision;

4: the ski according to FIG. 3 in a side view with a soft setting;

5: the ski according to FIG. 3 in a side view with a hard setting;

6: the ski according to FIGS. 1 and 2 with pressure bodies in the form of bracket elements and pneumatically / hydraulically variable spacer elements in the front part and in the rear part of the ski, in supervision;

7: the ski according to FIG. 6 in a side view with a soft setting;

8: the ski according to FIG. 6 in a side view with a hard setting; 9: the detail of the ski according to FIGS. 1 and 2 with the pressure body in the form of a bracket element which can be moved in a fixedly mounted carrier;

10: the ski according to FIGS. 1 and 2 in a top view with pressure bodies in the form of bracket elements fixedly attached on one side and pneumatically / hydraulically variable spacer elements on the front part and rear part of the ski;

Fig. 11; the ski of Figure 10 in side view with a soft setting.

FIG. 12: the ski according to FIG. 10 with a hard setting;

13: the ski according to FIGS. 1 and 2 in supervision with pressure bodies in the form of largely rigid bracket elements, which are firmly attached on one side near the ski tip or near the end of the ski, and pneumatically / hydraulically variable spacer elements at the free end of the bracket element;

14: the ski according to FIG. 13 in a side view with a soft setting;

15: the ski according to FIG. 13 with a hard setting;

16: the ski according to FIGS. 1 and 2 with pressure bodies in the form of chambers and pneumatically / hydraulically changeable additional compensating elements used therein; 17: the ski according to FIG. 16 in a side view with a soft setting;

18: the ski according to FIG. 16 with a hard setting;

19: as a detail from FIG. 16, the area of the compensating elements and pressure body in the front part of the ski in supervision;

20: as a detail from FIGS. 17 and 18

Part of the compensating elements with pressure elements in longitudinal section A / A;

21: as a detail from FIGS. 17 and 18

Cross section in the area of the compensating elements with pressure bodies at the interface

B / B;

Fig. 22; the ski according to Figures 1 and 2 in supervision with pressure bodies in the form of chambers attached to the ski with hydraulic / pneumatic elements and intermediate / underlay arranged therein;

23: as a detail from FIG. 22, the area of the compensating elements and the pressure element in the front part of the ski at the interface A / A, in a side view;

24: as a detail from FIG. 22, a cross section at point B / B; .

25: the ski according to FIGS. 1 and 2 in a top view with pressure bodies in the form of chambers integrated in the ski and toothed belt bands arranged one above the other therein;

replacement FIG. 26: as a detail from FIG. 25, a section of the area of the compensating elements and pressure bodies at the interface A / A when the ski is set hard, in a side view;

FIG. 27: the detail according to FIG. 26 when the ski is set softly;

Fig. 28: a further detail of Fig. 27;

Fig. 29: another detail of Fig. 26;

30: as a detail from FIG. 25, a cross section through the ski at the interface B / B;

FIG. 31: a detail of the ski ge ^'Mäss Figure 25 the area of the compensation elements and the pressure body in the front part of the ski at the interface of A / A, in side view;.

32: the ski according to FIGS. 1 and 2 in supervision with pressure bodies in the form of chambers integrated in the ski with profiles and cams attached for adjustment therein;

33: as a detail from FIG. 32, a cross section of the ski at the interface B / B with a soft setting;

34: as a detail from FIG. 32, a section of the area of the compensating elements and the pressure element in the front part of the ski with a soft adjustment, in supervision; 35: the detail according to FIG. 34 with hard adjustment of the ski;

36: the detail according to FIG. 34 in the side view at the interface A / A;

37: as a further detail from FIG. 34, the two interacting profiles on an outside of the chamber;

38: as a detail from FIG. 34, a side view of the profiles on one side of the chamber with the ski set softly;

FIG. 39: as a detail from FIG. 35, a side view of the profiles on one side of the chamber when the ski is set hard;

_* *

40: the detail of a "ski as in FIG. 32, but with a hydraulic / pneumatic element instead of the cams between the profiles of the pressure body, as a cross section of the pressure body at the interface B / B, with a soft setting of the Skis;

Fig. 41: the detail of the ski as in Fig. 40, but with the ski set hard;

42: the detail of a ski as in FIGS. 32 and 40/41, but with 2 hydraulic / pneumatic elements between the profiles of the pressure body, as a cross-section through the pressure body at the interface B / B, with the ski being set softly ;

43: the skis according to FIGS. 1 and 2 with pressure bodies

spare sheet pern in the form of chambers integrated in the ski with a diagonal drawstring and hydraulic / pneumatic element;

44: as a detail of the ski according to FIG. 43

Area of the compensating elements with pressure body in the front part of the ski in a longitudinal section at the interface A / A in a side view, with a soft setting of the ski;

45: the detail according to FIG. 44 when the ski is set hard;

FIG. 46: as a detail from FIG. 43, a cross section through the ski with a pressure body at the interface B / B;

47: the ski according to FIGS. 1 and 2 with the pressure body in the form of an integrated therein

Chamber with clamping elements and clamping band inserted therein;

48: as a detail of the ski according to FIG. 47, a section of the area of the compensating elements with pressure body in the front part of the ski as a longitudinal section at the interface A / A, in a side view;

49: as a detail of the ski according to FIG. 47, a cross section at the interface B / B;

50: as a detail the section as in FIG.

48 in an alternative embodiment of the tensioning element;

"sentence fatt FIG. 51: a cross section of the pressure body in the embodiment according to FIG. 50 at the interface B / B;

52 shows the detail of a ski according to FIGS. 1 and 2 with a pressure body in the form of a chamber integrated in the ski and interlocking profile elements inserted in the chamber with hydraulic / pneumatic elements arranged in between, as a section as in FIG. 48 the interface A / A, in side view;

53: the pressure body of the ski according to FIG. 52 as a cross section at the interface

B / B;

54: the detail of a ski according to FIGS. 1 and 2 with a pressure body in the form of a chamber integrated in the ski and a tubular hydraulic / pneumatic element with cross fabric attached therein, as a section as in FIG. 48 at the interface A. / A, in side view;

55: the pressure body of the ski according to FIG.

54 as a cross section at the interface B / B. The ski according to the invention consists of the central part 1, the front part 2 and the rear part 3. The central part 1 is box-shaped with a rectangular cross-section, trapezoidal cross-section or curved top. Due to this shape and appropriately chosen material, the middle part is essentially rigid. In contrast to the central part 1, the front part 2 and the rear part 3 of the ski have a basic structure, without taking into account the compensating elements 7, 16 and pressure elements 6, 7 described below; 8, 9; 10, 11; 12, 13; 14, 15; 17, 19; 21, 22, 25, 26; 27 to 30; 40 to 43; 44 to 48; 49 to 51; 53 to 55; 53, 56 to 58; 59 to 63; 64 to 66 easily bendable in the vertical direction, elastic and springy as well as torsional in the longitudinal axis.

In all embodiments, the invention

Ski in the areas 4 of the rear part 3 and / or the front part 2 on its upper side transverse compensating elements 5, 16 made of soft, but permanently elastic solid material (soft plastic, silicone, rubber or the like) that have the full width or only one Part of the width. The number, width and height of the compensating elements 5, 16 are to be selected taking into account the degree of hardness of their material and the material of the ski. In addition, in the individual embodiments of the ski according to the invention, pressure bodies are attached in the areas 4 with the compensating elements 5, 16, with which the bendability, elasticity, deflection, damping and torsion of the ski or its front part 1 and its rear part 2 can be changed.

ER _S ATZB AT 3-5, pressure bodies in the form of the bracket element 6 are attached in the region 4 of the rear part 3 and / or the front part 2 of the ski, which overlaps the region 4 with the compensating elements 5 and with both longitudinal ends 6 ', 6''is firmly attached to the ski surface. In the bracket element 6, the screw 7 is attached in a height-adjustable manner, which act on the area 4 with its lower end and change the character of the ski depending on its screwing depth. The screw 7 is preferably fixed to the ski surface, but is rotatably connected, so that with the height adjustment in the bracket element 6 the ski in the region 4 is tightened up or pressed down. Instead of the fixed connection to the ski surface, the screw 7 can, however, only represent a known spacer screw.

6 to 8, pressure areas in the form of the bracket element are in the area 4 of the rear part 3 and / or the front part 2 of the ski

14 attached, which overlaps the area 4 with the compensating elements 5 and with its two longitudinal ends 14 ', 14' ^{r is} firmly attached to the ski surface. Between the bracket element 14 and the area 4 of the ski, the spacer element 15 is fastened in the middle and its height can be changed. The spacer element 15 is preferably a flexible hollow body which is filled with a hydraulic fluid or with compressed air and the volume of which is changed via a known supply of hydraulic fluid or compressed air or vice versa by draining. However, the spacer element 15 can also be designed as a mechanical means (spacer screws, spacer grid). In the embodiment according to FIG. 9, pressure bodies in the form of a displaceable bracket element 8 are attached in the region 4 of the rear part 3 and / or the front part 2 of the ski, which in the carrier 9 fixedly mounted on the surface 5 of the ski in the longitudinal direction of the ski is movable. The carrier 9 is attached at the transition of the middle part 1 into the front part 2 or into the rear part 3 of the ski. The bracket element 8 overlaps the area 4 with the

10 equal elements 5 in the longitudinal direction of the ski, lies flush but slidable on the surface of the ski and changes according to the attachment, the flexibility, elasticity, deflection and torsion of the front and rear of the ski.

15

10 to 12 are in the area 4 of the rear part 3 and / or the front part

2 'of the ski pressure body in the form of the bracket element

*.

10 attached. This is in each case firmly attached to the ski at one end 10 '20 at the transition from the central part 1 to the front part 2 or to the rear part 3 and in front of the region 4 with the compensating elements 5 and is made of largely rigid material. It overlaps the area 4 with the compensating elements 5 and is not connected to the ski at its 25 opposite longitudinal end. In this area, between the surface of the ski and the end of the bracket element 10, the spacer element 11 is attached, which, like the spacer element 15 in FIGS. 6 to 8, is configured as a hydraulic element, a pneumatic element or a mechanical element, and by volume / Change in distance exerts higher or lower pressure on the rear part 3 or the front part 2 of the ski.

REPLACEMENT LEAF In the embodiment according to FIGS. 13 to 15, the pressure body 12, 13, in contrast to FIGS. 10 to 12, has the bracket element 12, which is fixedly attached with its one end 12 ′ to the end piece of the rear part 3 and / or the front part 2 of the ski is and overlaps the area 4 with the compensating elements 5. Between its opposite ends 12 ″ and the surface of the ski, the spacer element 13 is attached, which, like the spacer element 15 in FIGS. 6 to 8, is essentially designed as a hydraulic element, pneumatic element or mechanical element and is greater or lesser by changing the volume / distance Exerts pressure on the end piece of the rear part 3 or the shovel of the front part 2 of the ski.

16 to 21 in the region 4 of the rear part 3 and / or the front part 2 of the ski, pressure bodies in the form of the chamber 19 are integrated into the ski, which runs in the longitudinal direction thereof, made of carbon, carbon fiber or other solid, however consists of elastic material and has a rectangular cross-section, a trapezoidal cross-section, a square cross-section or a curved top and a horizontal bottom. Compensation elements 17 made of soft, permanently elastic as well as air and liquid-tight material are used within the chamber 19 transversely to the longitudinal direction of the ski, each having an inner cavity which communicates via the feed line 18 with the cavities of the adjacent compensation elements 17 and a feed device for compressed air or hydraulic fluid and pressure application communicating. The compensating elements 17 go into the immediately above, also transversely to the longitudinal direction of the ski via the chamber 19 to close to the outer Edges of the ski extending compensating elements 16, which are otherwise designed like the compensating elements 5. In the area of the compensating elements 5 and 17, the chamber 19 is provided with recesses on its upper side.

22-24 in the region 4 of the rear part 3 and / or the front part 2 of the ski, pressure bodies in the form of the chamber 22 are integrated into the ski, which essentially the chamber 19 in the embodiment according to FIGS. 16-21 corresponds and in the illustrated embodiment has a rectangular cross section. Within the chamber 22 are in the central portion 1 of the ski adjacent portion in the longitudinal direction of the ski, one or two hydraulic or pneumatic elements 21, 25 as a closed hollow body ^■ indicating eight, which via leads 23, 24 with a feeding device for hydraulic liquid or compressed air and pressure applicator stay in contact. In the alternative shown in FIGS. 23 and 24 with two hydraulic or pneumatic elements 21, 25, a largely rigid bracket element 26, which is fixed to a longitudinal end of the chamber 22, is arranged between them in the longitudinal direction of the ski. Depending on the pressure applied via the hydraulic or pneumatic elements 21, 25, the ski in the rear part 3 and / or in the front part 2 becomes harder or softer. Depending on the different pressure task in the upper hydraulic or pneumatic element 21 or the lower hydraulic or pneumatic element 25, the rear part and / or front part / blade are pressed up or down. In the sense of the invention, however, one of them can also be attached instead of two hydraulic or pneumatic elements 21, 25. The compensating elements 16 run transversely above the chamber 22 and close to the outer edges of the ski. 25 to 31 in the region 4 of the rear part 3 and / or the front part 2 of the ski, pressure bodies in the form of the chamber 30 are integrated in the ski, which likewise essentially the chamber 19 in the embodiment according to FIG. 16 corresponds to 21. In the longitudinal direction of the chamber 30, two horizontally extending toothed belt belts 28, 29 are arranged one above the other, the teeth of which lie opposite one another, the teeth πuπg; is matched in their arrangement and their dimensions. Above the upper toothed belt band 28 is the chamber cavity 27, which can be filled with hydraulic fluid or compressed air by means of a dispensing device (not shown in the drawings). The toothed belt belts 28, 29 consist of carbon, carbon fiber and other solid but elastic material. By applying pressure via the chamber cavity 27, the toothed belt band 28 with its toothing is pressed against the toothed belt band 29 with its toothing, with an increasing stiffer or rigid connection and thus harder or softer design of the ski as a whole being produced with increasing pressure. By selecting different angular positions of the teeth of the toothed belt band 28 on the one hand and the toothed belt band 29 on the other hand or different teeth spacing, as shown in FIGS. 28 and 29, a defined pressing of the rear part 3 and / or the front part 2 of the ski is made possible. The compensation elements 16 run as in FIGS. 22 to 24. In the sense of the invention, instead of the toothed belt pair 28, 29, a second pair of toothed belts in the same configuration can be arranged under the chamber cavity 27 above the latter.

In the embodiment according to FIGS. 32 to 39, pressure bodies in the form of the chamber 35 are integrated into the ski in the region 4 of the rear part 3 and / or the front part 2 of the ski, the material and the cross section also corresponds essentially to the chamber 19 in the embodiment according to FIGS. 16 to 21. Profiles 32 made of rigid material are attached to the two inner side walls of the chamber 35 and run in the longitudinal direction of the ski. Arranged between the two profiles 32 are cams 33 which mesh with one another via gears attached to them, as shown in FIGS. 34 and 35, and are adjusted synchronously from the top of the ski. The cams 33 interact with the two profiles 31, which also run in the longitudinal direction of the ski and are each opposite the profiles 32. The profiles of profiles 31 and 32 are coordinated. In order to achieve the required elasticity of the otherwise rigid profiles 31 and 32, they are provided at intervals with slot-shaped, vertically extending and mutually offset incisions 36, 37. In the position shown in FIG. 34, the cams are profiles 31 and 32 separated, as shown in Fig. 33. In this position, the ski has a softer basic setting. In the position of the cams 33 shown in FIG. 35, the profiles 31 and 32 engage in one another under pressure, so that a harder basic setting of the ski is brought about. The compensating elements 16 run as in the embodiment according to FIGS. 22 to 24.

In an advantageous development of the embodiment according to FIGS. 32 to 39, as shown in FIGS. 40 and 41, the hydraulic or pneumatic element 41 is used for pressing and releasing the interacting profiles 42, 43, which as a closed hollow body in the longitudinal direction of the ski runs within the chamber 41, is connected to the profiles 42 and is connected via a feed device for hydraulic fluid or compressed air and pressure application. With a corresponding printing task, the profiles 42, as shown in Fig. 41, against the profiles 43 on the inside

Ξrsa the chamber 40 pressed. The design of the chamber 40 and the profiles 42, 43 and the ski otherwise corresponds to the embodiment according to FIGS. 32 to 39.

32 to 39 and at the same time in a further development of the embodiment according to FIGS. 40, 41 are, as shown in FIG. 42, in the chamber 44 between the outer sides in the longitudinal direction of the ski extending two profiles 48, two hydraulic or pneumatic elements 45 used with an intermediate profile 47 running centrally in the longitudinal direction of the chamber, the profile of the profiles 47, 48 and the outer sides 46 of the hydraulic or pneumatic elements 45 in turn being coordinated with one another. The design of the chamber 44, the profiles 48 and the ski otherwise corresponds to the embodiment according to FIGS. 32 to 39.

As can be seen in FIGS. 38 and 39, different angular positions or profiling of the incisions 36 and 37 in the profiles 32 and likewise in the corresponding profiles 43 and 48 also result in a raising or lowering of the rear part 3 and / or front part 2 of the ski allows.

43 to 46 in the area 4 of the rear part 3 and / or the front part 2 of the ski, pressure bodies in the form of the chamber 51 are integrated into the ski and a tension band 49 is tensioned diagonally over their length within the chamber, which on the the middle part 1 of the ski adjacent end of the chamber is attached below and extends to the upper opposite longitudinal end of the chamber 51. In the upper area of the chamber 51 divided by the tension band, a hydraulic or pneumatic element 50 is inserted, which is connected via the feed line 52 to a feed device

replacement for hydraulic fluid or compressed air and pressure task in connection. The chamber 51 essentially corresponds to the chamber 19 in the embodiment according to FIGS. 16 to 21, likewise the compensating elements 16 correspond to those in the embodiment according to FIG.

22 to 24. In FIG. 44, the hydraulic or pneumatic element 50 is subjected to little pressure, as a result of which the ski has a softer setting. 45, the hydraulic or pneumatic element 50 is under higher pressure, which results in a higher degree of hardness of the ski. In the sense of the invention, a hydraulic or pneumatic element 50 can additionally be used in the lower region of the chamber 51 divided by the tension band 49. Depending on the printing task on one or both of the hydraulic or pneumatic elements

50, an increase or decrease in the rear part 3 and / or the front part 2 of the ski is achieved in a manner similar to the embodiment shown in FIGS. 22 to 24.

In the embodiment according to FIGS. 47 to 49, pressure bodies in the form of the chamber 53 are integrated into the ski in the region 4 of the rear part 3 and / or the front part 2 of the ski, several of them arranged one behind the other in the longitudinal direction of the ski in the chamber 53 Clamping elements 54 made of largely rigid material with a hollow or foamed interior 67 are firmly connected to one another on the upper side but are separated from one another on the outer sides and the underside. These tensioning elements 54 are more or less pulled together from the central part 1 of the ski by means of a tensioning strap 55 which is fixedly attached to the foremost tensioning element and loosely guided through the further tensioning elements in the longitudinal direction and a known tensioning lever, not shown

Ercatzbiatt pressed against each other. As a result, the ski in the rear part 3 and / or in the front part 2 is set softer or harder as required, and at the same time the rear part and front part / shovel are bent downward more or less. The tension band is preferably made of carbon, carbon fiber or other solid but elastic material. The chamber 53 corresponds otherwise essentially to the chamber 19 shown in FIG. 16 to 21. The compensation elements 16 correspond to ^'the compensation elements according to FIG. 22 to 24.

47 to 49, as shown in FIGS. 50 and 51, several clamping elements arranged one behind the other in the longitudinal direction of the ski are in the chamber 53

57 used, which are independent of each other in deviation from the clamping elements .54. At their front and rear ends, they have an adapted profiling of the surface, in particular in an angular form. Between each of the two interlocking clamping elements 57, an intermediate element 56 made of permanently elastic material with a degree of hardness can be selected. The tension band 58 is advantageously centered, i.e. halfway through the tensioning elements 57, loosely guided through them and the intermediate elements 56. Otherwise, the pressure bodies with respect to the chamber 53 and the tensioning elements 57 and the tensioning strap 58 correspond to the embodiment according to FIGS. 47 to 49.

In the embodiment according to FIGS. 52 to 53, the pressure body in the rear part 3 and / or in the front part 2 of the ski corresponds with respect to the chamber 63 to the chamber 19 according to FIGS. 16 to 21. However, in the chamber 63 there are Profile elements 59 and 60 arranged one behind the other in the longitudinal direction of the ski, which loosely engage or overlap at their respective ends via adapted positive or negative profiles. In this area, a hydraulic or pneumatic element 61, which is arranged transversely to the longitudinal direction of the ski, is used, which is designed as a closed hollow body, which is connected via a feed line 62 to a feed device for hydraulic fluid, compressed air and pressure feed. 52 and 53, the hydraulic or pneumatic element has no or little pressure. When pressure is applied, the profiles 59 and 60 are pressed into one another by the hydraulic or pneumatic element 61 and against the floor and the ceiling of the chamber 63, as a result of which the rear part 3 and / or the front part 2 / shovel is set tougher. Furthermore

_* In this embodiment too, the ski has the compensation elements 16, as in the embodiment according to FIGS. 22 to 24.

54 and 55 are in the area 4 of the rear part 3 and / or the front part

2 of the ski pressure body in the form of the chamber 64 integrated into the ski, which runs in the longitudinal direction and has a round cross section. According to the invention, however, the chamber can also have an oval cross section. Arranged inside the chamber 64 is a tubular hydraulic or pneumatic element 66 as a closed hollow body, which is covered on the outside with a tubular fabric 65, preferably as a cross-woven fabric. The chamber 64 and the tubular fabric 65 are made of carbon, carbon fiber or otherwise strong but elastic material. The hydraulic or pneumatic element is connected to a feed device for hydraulic fluids via a feed line (not shown). liquid or compressed air and pressure task in connection. Depending on the printing task, the ski is made harder or softer by pressing the hydraulic or pneumatic element 66 against the tubular fabric 65.

The ski according to the invention has the following advantages in particular over the known ones: Already through the soft, but permanently elastic compensating elements 5, 16 in the area 4 of the rear part 3 and / or

Front part 2 of the ski, in contrast to the known constructions, except possibly the ski according to the patent application P 35 27 996.6 by the applicant, creates a ski that can be used universally on the different slopes, under different snow conditions, without the disadvantages described above different terrain formations and can be used in the various disciplines of skiing or skiing. In contrast to the attempted compromises in known constructions, the compensating elements 5, 16 permit a softer basic classification of the ski which, depending on the type and location of use, is compensated for by the deflection and resetting properties of the compensating elements in connection with the other ski structure. At the same time, a high

Torsion is achieved in the area of the front part and the rear part of the ski, which prevents the edges from accidentally engaging too much and thus tilting the ski, without losing the necessary grip when swinging, climbing, braking etc.

The additional attachment of the pressure body in the rear part 3 and / or in the front part 2 of the ski in the described embodiments also brings the considerable advantage - also compared to the ski according to patent application P 35 27 996.6 - that a stepless regulation

Erc the hardness / rigidity or vice versa of the switch and also the ability to dry. By appropriately adjusting the pressure body, the skis can almost reach the hardness of the rigid middle part in the entire area, conversely, it can be adjusted very softly for special use.

In addition to this infinitely variable controllability, the pressure bodies described in conjunction with the compensating elements 5, 16 make it possible to change the position of the rear part 3 and / or the front part 2 / of the blade vertically downward or upward from one plane with the central part 1 , which equally affects the ability to turn, grip, initiate turns, speed and dampen the ski. The infinitely variable control of the degree of hardness or the torsion of the ski also has the advantage that it can be adapted to the specific circumstances of the respective user of the ski (size, weight, knowledge of skiing, etc.).

The embodiments according to the invention with pressure bodies integrated in the skis bring particular advantages, in particular when using hydraulic or pneumatic elements. The chambers of the pressure body, which extend in the longitudinal direction over the regions 4 with the compensating elements 5, 16, achieve a particularly uniform adjustment over the entire region of the front part 2 or the rear part 3. At the same time, the setting is reliable and cannot be made difficult or impossible by icing the adjustment elements during skiing.

Spare sheet

Claims

 P a t e n t a n s r u c h e

Ski for use in the various disciplines of skiing, consisting of a middle part (1), a front part (2) and a rear part (3), the length of the middle part (1) being greater than that of the ski binding including the space taken up between the binding parts and the central part (l) is box-shaped (with a rectangular cross-section, trapezoidal cross-section or curved top) and is essentially rigid, characterized in that the basic structure is elastic in "the vertical - The front and rear parts (2) and (3), which are resilient and resilient in the longitudinal axis, and (3) in their areas (4) adjoining the central part (1), compensating elements (5, 16) made of soft but permanently elastic solid material (soft plastic , Silicone, rubber or the like) and additionally on the rear part (3) and / or on the front part (2) of the ski pressure body (6, 7; 8, 9; 10, 11; - 12, 13; 14, 15; 17, 19 ; 21, 22, 25, 26; 27 to 30; 31 to 35; 40 to 43; 44 to 48; 49 to 51; 53 to 55; 53, 56 to 58; 59 to 63; 64 to 66) are attached. 2. Ski according to claim 1, characterized in that the pressure body (6, 7) from the bracket element (6) and in this rotatably and vertically adjustable, vertically directed against the ski surface screw (7), the

Bracket element overlaps the area (4) of the compensating elements (5) and is firmly attached to the ski surface with one longitudinal end (6 ¹ ') or both longitudinal ends (6 ¹ , 6''), and that the screw (7) on the Area (4) with the compensating elements (5) acts.

3. Ski according to claim 1, characterized in that the pressure body (14/15) consists of the bracket element (14) which overlaps the area (4) with the compensating elements (5) and with its two longitudinal ends (14 ', 14'') is fastened to the surface of the ski, and from the center between the bracket element (14) and the area (4) _{, the} height and / or length of which can be changed pneumatically, hydraulically or mechanically Spacer element (15), the volume change taking place in a manner known per se by mechanical means (spacer screws, spacer grid) or by means of flexible or pneumatically or hydraulically modified flexible hollow bodies.

4. Ski according to claim 1, characterized in that the pressure body (8, 9) from between the area (4) with the compensating elements (5) and the central part (l) of the ski on its surface firmly mounted support (9) and the one that can be displaced horizontally in the longitudinal direction of the ski

Spare sheet Bracket element (8), wherein the bracket element (8) overlaps the area (4) with the compensating elements (5) and is flush with its front end (8 ') on the rear part (3) and / or the front part (2) of the ski , but is slidable.

6. Ski according to claim 1, characterized in that the pressure body (10, 11) consists of the largely rigid bracket element (10) on the rear part (3) and / or on the front part (2) of the ski with one end (10 ') each at the transition to the central part (l) and in front of the area (4) with the compensating elements (5), and from the spacer element (11), which is between the free end of the bracket element (10) and the rear part (, 3) near its end piece, the front part (2) is arranged in the region of its transition into the blade, the bracket element (10) overlapping the region (4) with the compensating elements (5) and the _ spacer element ( 11) its length and / or height can be changed pneumatically, hydraulically or mechanically by changing the volume in a manner known per se by means of flexible hollow bodies which have been changed in volume pneumatically or hydraulically or by mechanical means (spacing screws, spacing grids, Eccentric, scissors, etc.).

7. Ski according to claim 1, characterized gekennzeich¬ net that the pressure body (12, 13) consists of the largely rigid bracket element (12) on the rear part (3) and / or on the front part (2) of the ski with his one end (12 ') each at the end piece of the rear part (3) and on the front part (2) in the area of the transition into the blade, and from the spacer element (13), which is between the free end (12 '') of the bracket element (12) and Front part (2) or the

The rear part (3) has its transition into the central part (1), the bracket element (12) overlapping the area (4) with the compensating elements (5) and the spacer element (13) pneumatically in its length and / or height characterized is hydraulically or mechanically variable, that the volume change in volume amended flexible hollow body or by mechanical means through pneumatic or hydraulic (distance screws, Distanz¬ raster, eccentric, scissors, etc.) in a conventional manner is done ^'.

7. Ski according to claim 1, characterized gekennzeich¬ net that the pressure body from a mounted on the rear part (3) and / or the front part (2) of the ski, in the longitudinal direction of the ski and running in this integrated chamber ( 19) with a rectangular cross-section, trapezoidal cross-section, square cross-section or curved upper side / horizontal lower side made of carbon, carbon fiber or other solid but elastic material and additional compensating elements (17) made of soft, permanently elastic and air and liquid-tight material, the Compensating elements (16) are embedded in the surface of the ski above the chamber (19) transversely to the longitudinal direction of the ski and extend close to the outer edges of the ski

Salt sheet and an additional compensating element (17) is inserted under a compensating element (16) also transversely to the longitudinal direction of the ski into the chamber (19), furthermore the additional compensating element (17) has an internal cavity which is connected via a feed line (18 ) is connected to the cavities of the adjacent additional compensating elements (17) and a feed device for compressed air or hydraulic fluid and pressure application, and that the chamber (19) is on its upper side in the region of the compensating elements (16 and 17 ) Has recesses through which the compensating elements (16 and 17) merge.

8. Ski according to claim 1, characterized in that the pressure body from one in the rear part C3) and / or in the front part (2) of the ski. attached, longitudinally extending chamber (22) with rectangular cross-section, trapezoidal cross-section, square cross-section or curved top / horizontal bottom made of carbon, carbon fiber or other solid but elastic material and one or two therein in the middle part (l) of the ski Hydraulic / pneumatic elements (21, 25) arranged in the adjacent part of the chamber and a largely rigid bracket element (26) running in the longitudinal direction of the ski and fastened to one end of the chamber (22), the

Hydraulic / pneumatic elements are closed hollow bodies which are connected via feed lines (23, 24) to a feed device for compressed air or hydraulic fluid and pressure feed, and that the compensating elements (16) via the chamber (22) transversely to the longitudinal direction of the ski are embedded in the top of the ski and extend close to the side edges of the ski.

9. Ski according to claim 1, characterized in that the pressure body from an attached to the rear part (3) and / or on the front part (2) of the ski, extending in the longitudinal direction of the ski and integrated into this chamber (30) Rectangular, trapezoidal or square cross-section, with toothed belt bands (28, 29) arranged one above the other, which lie opposite one another with their toothing, and a toothed belt pair (28, 29) or between this and another toothed belt pair (28, 29) lying variable chamber cavity (27), the toothed belt band (29) being fixedly and vertically immovably attached to the bottom of the chamber (30), while the toothed belt band (28) is vertically movable, and the chamber cavity (27) via a feed device Compressed air or hydraulic fluid is filled and the toothed belt band (28) with its toothing against the toothing of the toothed belt belt (29) by pressure application presses, further that the compensating elements (16) in the area (4) of the ski over the chamber (30) transversely to the longitudinal direction of the ski to close to its lateral edges and that the chamber (30) and the toothed belt bands (28, 29) from Carbon, carbon fiber or other solid, but elastic material.

10. Ski according to claims 1 and 9, characterized gekenn¬ characterized in that the toothed belt belts (28) on the one hand and (29) on the other hand in relation to each other and / or each of the toothed belt belts in a toothing with different angular position and / or different spacing have individual teeth.

^* -so¬

ll. Ski according to claim 1, characterized in that the pressure body consists of a chamber (35) with a quadra¬ which is mounted on the rear part (3) and / or on the front part (2) of the ski, runs in the longitudinal direction of the ski and is integrated in it there is a table, trapezoidal or square cross-section, on the inner side walls of which a profile (32) made of rigid material, with slot-shaped incisions provided at intervals, is firmly attached and in the longitudinal direction of the ski centrally between the two profiles (32) cams ( 33) are provided, which can be rotated about vertical axes and preferably have an elliptical shape, furthermore that the cams (33) cooperate with the two profiles (31), which lie opposite the profiles (32) and their profiles adapted and also at intervals provided with slot-shaped, mutually offset incisions 36, 37, and that several cams (33) are attached to toothed which (34) are adjusted jointly and uniformly, the cams (33) pressing the profiles (31 and 32) against one another when they are positioned transversely to the longitudinal direction of the ski, and that the compensating elements (16) in the region (4) of the ski extend above the chamber (35) transversely to the longitudinal direction of the ski to close to its lateral edges and the chamber (35) consists of carbon, carbon fiber or other solid but elastic material.

12. Ski according to claims 1 and 11, characterized gekenn¬ characterized in that in the chamber (35) corresponding chamber (40) with the profiles (32) correspond to the two profiles (43) instead of the camshafts (33) in the middle between the two profiles (43) in the longitudinal direction of the ski hydraulic / tire

Replacement sheet Matikelement (41) is used in the form of a closed Hohl¬ body, which is connected via a feed line to a feed device for hydraulic fluid or compressed air and pressure application, and that the hydraulic / pneumatic element (41) cooperates with the two profiles (42) which correspond to the profiles (31) and that when pressure is applied to the hydraulic / pneumatic element (41) the profiles (42) and (43) are pressed against one another.

13. Ski according to claims 1, 11 and 12, characterized in that in the chambers (35 and 40) corresponding chamber (44) with the two, the profiles (32 and 43) corresponding profiles (48) in the middle between these two hydraulic / pneumatic elements (45) run in the longitudinal direction of the ski with an intermediate professional (47) attached between them, the * hydraulic / pneumatic elements (45) -an. their sides (46) opposite the profiles (47 and 48), the profiles of which are adapted and press into the profiles (47 and 48) when printing.

14. Ski according to claim 1, characterized in that the pressure body from a in the rear part (3) and / or in the front part (2) of the ski, extending in the longitudinal direction of the ski and integrated in this chamber (51) with a rectangular cross-section, trapezoidal Cross-section, square cross-section or curved top / horizontal underside and within the chamber along its length a drawstring (49) is firmly attached to the two longitudinal ends of the chamber (51) such that it is from the end adjacent to the central part (l) of the ski of the chamber (51) below leads to the opposite longitudinal end of the chamber (51) above, and that in the upper part of the chamber delimited by the diagonal tension band (49)

Spare sheet (51) or in both parts of the chamber (51) formed by the diagonal tension band (49) hydraulic / pneumatic elements (50) are arranged as closed hollow bodies which are connected via the feed line (52) with a feed device for hydraulic fluid or compressed air and pressure applicator in communication, further that the compensating elements (16) extend in the region (4) of the ski above the chamber (51) transverse to the Längsrich¬ processing of the ski up to near its side edges ^"• and that the chamber ( 51) and the drawstring (49) made of carbon, carbon fiber or other solid but elastic material.

15. Ski according to claim 1, characterized in

15 that the pressure body from one on the rear part

(3) and / or ange¬ on the front part (2) of the ski, mounted extending in the longitudinal direction of the ski and in ^this' built-in chamber (53) with square-wave angular, trapezoidal, square cross-section

20 or curved upper side / horizontal lower side made of carbon, carbon fiber or other solid, but elastic material and in the chamber (53) several in the longitudinal direction of the ski arranged one behind the other, firmly connected on the upper side

25 den, but on the outer sides and the underside of each other clamping elements (54) made of largely rigid material with a hollow or foamed interior (67) are attached, which is attached to the front most clamping element (54) by

30 the further tensioning elements (54) in the longitudinal direction loosely passed tensioning strap (55) and a known tensioning lever are controllably pressed against each other, and that the tensioning strap (55) made of carbon, carbon fiber or other solid but elastic

35 material consists, furthermore, that the compensating elements (16) in the area (4) of the ski over the chamber (53) transverse to the longitudinal direction of the ski to close to its side edges.

Spare sheet 16. Ski according to claims 1 and 15, characterized ge indicates that in the tensioning elements (54) corresponding tensioning elements (57) in the longitudinal direction of the ski at their front or rear ends have an adapted profile of the surface, in particular in an angular shape and between each two tensioning elements (57) an intermediate element (56) made of permanently elastic material with a degree of hardness that can be selected is inserted, while the tensioning band (58) corresponds to the tensioning band (55).

17. Ski according to claim 1, characterized in that the pressure body from a mounted on the rear part (3) and / or on the front part (2) of the ski, extending in the longitudinal direction of the ski and integrated into this chamber (63) Rectangular cross-section, _^ trapezoidal cross-section, square cross-section or curved upper side / horizontal lower side consists of carbon, carbon fiber and other solid but elastic material and profile elements (59) and (60) are inserted within the chamber (63) which, arranged one behind the other in the longitudinal direction of the ski, engage loosely with one another at their respective ends by means of adapted profiling, and that a hydraulic / pneumatic element (61) lying transversely to the longitudinal direction of the ski is inserted in this engagement area, wherein this is a closed hollow body which is connected via a feed line (62) to a feed device for hydraulic fluid or

Compressed air and pressure are connected, in addition that the compensating elements (16) in the area (4) of the ski extend over the chamber (63) transversely to the longitudinal direction of the ski up to close to its lateral edges.

Spare sheet 18. Ski according to claim 1, characterized gekennzeich¬ net that the pressure body from a mounted on the rear part (3) and / or on the front part (2) of the ski, extending in the longitudinal direction of the ski and integrated into this chamber (64) with a circular or oval cross-section and within the chamber (64) a tubular hydraulic / pneumatic element (66) is arranged as a closed hollow body, which on the outside is covered with a cross fabric (65), preferably as a tubular fabric, is enveloped that the hydraulic / pneumatic element (66) is connected via a feed line to a feed device for hydraulic fluid or compressed air and pressure application, and that the chamber (64) and the hydraulic / pneumatic element (66) are made of carbon , Koh-. fiber or other solid but elastic material .'-

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