DE102016113858B4 - kite - Google Patents

Abstract

Disclosed is a kite in which a front hose and / or at least one transverse hose are designed without a bladder. These elements can be interchangeable. The front hose has this about a socket / sleeve-shaped receptacle for the transverse tube.

Description

The invention relates to a kite with an inflatable support structure.

Conventional kitesurfing or kiting equipment is designed either as tubekites or as mats with inflatable chambers. Tubekites have the big advantage in kitesurfing that they can swim in a crash and thus can be restarted without major problems (restart). In the above "mats", the pressure chambers can run full of water, so that only experienced surfers succeed.

The common construction in Tubekites is that a support structure consisting of an air hose (tube) and transverse struts (struts) is formed of a robust outer skin surrounding a bladder consisting of a thin, airtight material passing through the Shell is protected against damage. A disadvantage of such a bladder is that it can burst in the event of a crash of the kite or excessive pressure build-up and, moreover, the weight of the kite is increased.

The US 2006/0 192 055 A1 and the DE 202 01 924 U1 each show a kite, wherein the structure is designed such that the transverse tubes are not interchangeable.

The GB 2 423 732 A and the US 2004/0 195 435 A1 each show a kite with multi-part construction.

In the WO 2014/076 550 A2 an inflatable structure is shown, which is also - according to the description of this document - applicable for kites. In this solution, instead of the bladder, a structure is used in which a first, shape-shaping chamber is inflatable and airtight. This chamber surrounds a second chamber, which is also designed to be inflatable and is subjected to a pressure which is greater than that of the first chamber. Ie. in this solution, two inflatable chambers are provided, which are arranged nested in each other - such a structure is even heavier than the structure described above with a Bladder and therefore rather unsuitable for kites.

In the DE 10 2009 016 083 A1 the bonding of tarpaulins for the production of a front hose (front tube) or a transverse hose is described. These elements can be made air and waterproof. The problem with such a solution is that in case of leakage, for example, due to a crash of the kite, the outer skin must be sealed by suitable "patches" because you can not get to the inner peripheral wall of the elements after bonding.

In contrast, the invention has for its object to provide a kite that is easy to repair with low weight.

This object is achieved by a kite having the features of claim 1.

Advantageous developments of the invention are the subject of the dependent claims.

The kite according to the invention has an inflatable support structure with a front hose, to which at least one transverse hose is fastened, which together carry a shield (canopy). The kite further optionally has at least one stiffening element that stabilizes the shield in the region of a trailing edge or a leading edge. According to the invention, the front hoses and / or the transverse hoses and / or the stiffening element are formed from a sheath having an outer skin which is provided with an airtight inner layer or which consists of an airtight material. The jacket defines a pressure chamber which can be filled by means of at least one valve. According to the invention, the front hose and / or the transverse hose and / or the stiffening element are exchangeably connected to the shield.

In other words, the kite is designed bladderless (bladderless), wherein the outer skin is coated airtight, so that the total weight of the kite compared to the solutions described above is significantly reduced. As a result, the production-intensive production of the bladder can be omitted, so that the kite can be produced much cheaper, without affecting the function. In case of damage, the damaged elements of the support structure, such as the front hose, the transverse hose or the stiffening element are easily replaced, so that the kite is very quickly ready to start again. Due to the interchangeability, the profile of the kite can be adapted to different conditions of use, for example, by changing the diameter of the front hose or the diameter of the cross tubes / stiffeners or their profiling to adjust the kite more for light wind or strong wind. In principle, you can also remove cross tubes in light wind to optimize the weight.

The jacket can - as mentioned above - be provided from an outer skin and an inner coating. It is also possible to use a sandwich material with a robust jacket and an airtight layer. In principle, it is also possible make the jacket from an airtight material so that the weight of the kite is further reduced.

In one embodiment of the invention, at least one stiffening element is arranged transversely to the trailing edge in the manner of a batten and preferably tapers towards this.

In previously known solutions, these stiffening elements are always formed with a more or less elastic batten, which are used interchangeably in specially manufactured batten pockets of the shield. It goes without saying that this solution can be made significantly more difficult than the solution according to the invention with an inflatable stiffening element. In addition, the stiff battens hinder the rolling of the kite and in some models even need to be taken out for rolling. In the solution according to the invention, only the air must be drained.

The inflation of the inflatable elements can consist of individual valves or a central valve (One-Pump-System).

The production of the structural elements (front hose, transverse hose, stiffening element) is particularly simple if the jacket consists of two shell parts connected to one another. This connection can be done for example by welding or gluing.

In one embodiment of the invention, a hybrid system is used, in which the front hose is designed conventionally with a bladder, while the at least one transverse tube and / or the at least one stiffening element according to the invention are designed bladderless.

In principle, it is also possible to design the front tube and the transverse tube in a conventional manner and only the stiffening element according to the invention.

In the case in which the transverse tube is made replaceable, may be formed on the front tube an approximately bushing / sleeve-shaped receptacle into which the end portion of the transverse tube is inserted.

The attachment of the transverse tube and / or the stiffening element to the shield can be done by means of a welt. In this case, for example, be attached to the shield a piping rail, in which a trained on the transverse tube or the stiffening element piping is pulled. Alternatively, a hook and loop fastener or the like may be used.

The piping or the piping rail can for example consist of an elastic plastic (EVA).

A suitable material for the jacket is for example nylon, which is coated on the inside with polyurethane.

In one embodiment of the invention, the material of the jacket is selected so that the respective component (front hose, transverse hose, stiffening element) elastically deforms during a crash of the kite, which deformation extends wave-like over the entire structure, so that the load peaks in the system and the kite is not damaged - this is an essential difference to the "hard" conventional constructions, where the mantle is made relatively stiff and sturdy, so that the deformation occurs only in the impact area.

Preferred embodiments of the invention are explained below with reference to schematic embodiments. Show it:

1 a schematic diagram of a Tubekites;

2 a partial view of a kite according to 1 ;

3 a cross-tube of the kite according to 2 ;

4 a connection region of the transverse tube according to 3 according to the kite 2 ;

5 an alternative connection way of a transverse tube;

6 a further alternative of a connection region of a transverse tube;

7 stiffening elements formed on a trailing edge;

8th a variant of the stiffening according to 7 and

9 a view of the stiffening element according to 8th seen from a top of the kite.

Based 1 becomes the basic structure of a tubekite - in the following kite 1 called - explained. Such a kite 1 has a support structure 2 with a front hose 4 that have a leading edge 3 ( Leading Edge) trains. On this front hose 4 are a variety of to a trailing edge 6 (Trailing Edge) running cross hoses 8th attached. This support structure 2 with the front hose 4 and the cross tubes 8th (in the present case five cross tubes 8th ) are with of the actual kitting surface forming shielding 10 covered and sewn or glued with this. In the area of the trailing edge 6 are in the embodiment according to 1 To avoid fluttering a plurality of canvas-like stiffening elements 12 intended. To stabilize the profile can also in the area of the front hose 4 Profile stabilizing elements 14 be provided, which profile the Anströmbereich. Such stabilizing elements are for example in the DE 20 2005 018 317 U1 the applicant discloses.

2 shows a view from below (seen from the surfer) on a kite 1 according to 1 , where only the middle area with the front hose 4 and a transverse hose attached thereto 8th and the shielding 10 are shown.

3 shows a detail of this transverse tube B. This is executed in a conventional manner with an aerodynamically optimized profile, extending from the front hose 4 away to the trailing edge 6 rejuvenated. A special feature of the illustrated embodiment is that this transverse tube 8th is performed blandderlos. This cross tube 8th has according to the in 3 top right indicated section AA, which very much simplifies the basic structure reflects, but is not true to scale cut, a coat 16 consisting of a first shell part 18 and a second jacket part 20 , which are connected together to a kind of hose and an air chamber 22 surround airtight. Here are the shell parts 18 . 20 along flat on lying flange-like areas 24 . 26 welded or glued together. As shown in section AA greatly enlarged, the shell parts 18 . 20 made of at least two layers with a robust outer skin 28 and an air chamber side attached thereto coating 30 educated. This coating 30 is airtight, so the coat 16 is completely closed and undesirable no air can escape. The front hose side end portion of the transverse tube 8th is through a curved flange area 32 formed, the two shell parts 18 . 20 closes the front side. The flange area 32 is to the outer contour of the front hose 4 customized. The tapered, downstream edge-side end portion of the transverse tube 8th is formed in the illustrated embodiment in that there is the two shell parts 18 . 20 similar to the flange-like areas 24 . 26 are connected to each other by welding or gluing.

According to 3 each transverse tube thus forms a complete unit, preferably replaceable to the front hose 4 is set.

4 shows the connection area of the transverse tube 8th to the front hose 4 , As shown in 4 is the shielding in this connection area 10 with a reinforcement (patch) 34 provided, which also with the front hose 4 connected is. The transverse tube 8th is above the flange area in this area 32 with the front hose 4 connected. The connection can be made according to 4 by sewing, although it is assumed that on the transverse tube 8th more precisely on the flange area 32 a circumferential projection 36 is formed, along which the transverse tube 8th with the front hose 4 can be sewn without the tightness of the air chamber 22 to impair. In 4 Visible is also a valve 38 for filling and emptying the support structure 2 , In the illustrated embodiment, the kite is designed with a so-called one-pump system, so that this valve 38 also the cross tube 8th can be filled or emptied.

In the embodiment according to 4 is thus the transverse tube 8th firmly with the front hose 4 connected. 5 shows a variant in which on the front hose 4 a bush or sleeve-shaped receptacle 39 is fixed, in which the end portion of the transverse tube 8th with the flange area 32 is used and secured there in a suitable manner. This type of attachment allows replacement of the transverse tube 8th to.

The attachment to the shield 10 can be done for example via a Velcro or a kederartige connection, as in 6 is shown very schematically. Accordingly, to the shield 10 a kind of piping rail 40 made of an elastic plastic material, such as EVA attached. At the cross tube 8th , more precisely on the coat 16 is a corresponding piping 42 attached. This piping 42 may, for example, along one of the flange-like areas 24 extend. For mounting the cross tube 8th This is then with her piping 42 in the piping rail 40 He moved into the recording 38 on the front hose 4 dips in and is fixed there. The transverse tube 8th can be replaced in this way, for example, to a repair or maintenance or even to change the profile in a simple way or be removed. Of course, other ways of attachment are possible. For example, on the screen 10 and on the coat 16 and also in the recording 38 suitable Velcro connections or the like are provided, which releasably securing the transverse tube 8th enable.

In a similar way, the front hose 4 interchangeable with the shield 10 be connected so that the entire kite is modular. Also, the stiffening elements described below can - similar to a batten - interchangeable with the shield 10 get connected.

A special feature of the illustrated kite 1 is that the stiffening elements of the kite 1 are also designed inflatable according to the above-described concept. 7 shows a variant in which at a portion of the trailing edge 6 two inflatable stiffeners 12a . 12b are formed. These have roughly the same basic structure as the one in 3 explained transverse hose 8th and thus consist of a bladderless coat, which in principle from the one with a coating 30 provided outer skin 28 consists. At the in 7 illustrated embodiment, the two stiffening elements 12a . 12b an approximately cylindrical profile. The filling and emptying takes place in each case by means of a valve 44 , this in 7 is shown only by way of example and can be made significantly more compact. As explained above, is made by these stiffening elements 12 a flutter of the kite in the trailing edge area 6 prevented. In the illustrated embodiment, these stiffening elements 12 with the shielding 10 sutured. This connection is again along a circumferential flange area 46 which is shown in the section BB (see 7 ).

8th shows an aerodynamically optimized variant in which the inflatable stiffening element 12 to the trailing edge 6 and also to the front hose 4 tapered towards. By this taper running the profiling (see section BB) through the stiffening element 12 to the trailing edge 6 out and thus has its largest diameter in the middle area. In this area is the valve 44 educated.

9 shows the in 8th shown area from the top of the kite ago. It can be seen in this representation that the stiffening element 12 from the bottom along the circumferential flange area 46 with the shielding 10 - Preferably releasably - is connected and as shown in FIG 9 bulges out to the viewer. This bulge runs as I said to the front hose 4 towards and to the trailing edge 6 out.

The front hose 4 Can also bladderless with the in 3 be executed construction shown. Ie. also the front hose 4 can a coat 16 show off the sturdy outer skin 28 that exists with a coating 30 is provided.

The coating 30 may for example consist of a PU or TPU material. The outer skin 28 may be made of nylon or the like. This one sandwich construction (outer skin 28 , Layer 30 ) having material is preferably supplied as a roll material and then processed into the above-described elements.

In a simple embodiment, for example, only the stiffening elements 12 inflatable, preferably be executed without bladder. In another version, the cross tubes can 8th and the stiffening elements 12 be performed bladderless. In a targeted third version, the entire support structure with the front hose 4 , the cross tubes 8th and possibly the stiffening elements 12 designed bladderless, wherein the elements are each interchangeable.

It is preferred if at least the front hose 4 and the cross tubes 8th can be filled / emptied by means of a one-pump system. Under certain circumstances, the stiffening elements can also be connected to it. However, it is currently preferred, these stiffening elements 12 inflate individually, so that by selecting the air pressure of the stabilization effect is similar to a hard or soft batten variable.

In a preferred embodiment of the invention is the material from which the sheath of the transverse tubes 6 , the front tube 4 and / or the stiffening elements 12 formed is relatively elastic, so that while on the one hand has sufficient rigidity to build the support profile of the kite in the flight phase and also allow maneuvers with tight curve radii or high cornering speeds (loops) without undesirable deformation - in the event of a crash, this material but one over the longitudinal axis of the respective component (transverse tube, front hose and also stiffening element) extending deformation, are reduced by the load peaks in the impact area to the "back", away from the impact zone and thus an overload of the material in the impact area is reliably prevented. Such flexibility of the shell of the components for reducing stress peaks is not provided in conventional solutions. Such a choice of material, for example, in the event of an impact on the front hose, may cause the transverse tubes to deform in a wave-like manner in order to reduce load peaks. In principle, the inventive design is much more elastic than the conventional solution with a sheath made of wear-resistant material and bladder incorporated therein.

Disclosed is a kite in which a front hose and / or at least one transverse hose are designed without a bladder. These elements can be interchangeable. The front hose has this about a socket / sleeve-shaped receptacle for the transverse tube.

LIST OF REFERENCE NUMBERS

1

tube kite

2

supporting structure

3

leading edge

4

front hose

6

trailing edge

8th

cross tube

10

canopy

12

stiffening

14

Profile stabilizing element

16

coat

18

jacket part

20

jacket part

22

air chamber

24

flange-like area

26

flange-like area

28

shell

30

coating

32

flange

34

reinforcement

36

Got over

38

Valve

39

admission

40

tentrail

42

piping

44

Valve

46

flange

Claims (7)

Kite with an inflatable support structure ( 2 ), which has a front hose ( 4 ), on which at least one transverse tube ( 8th ), which together provide a shield ( 10 ) carrying the shielding ( 10 ) in the region of a trailing edge ( 6 ) or a leading edge ( 3 ), wherein at least the transverse tube ( 8th ) and / or the front hose ( 4 ) and / or a stiffening element ( 12 ) is interchangeable and from a coat ( 16 ) with an outer skin ( 28 ) and an associated airtight inner layer or a jacket ( 16 ) is made of an airtight material having an air chamber ( 22 ), which by means of a valve ( 38 ), characterized in that the front hose ( 4 ) a female / sleeve-shaped receptacle ( 39 ) for the transverse tube ( 8th ) Has. Kite according to claim 1, wherein a stiffening element ( 12 ) pale-like across the trailing edge ( 6 ) is arranged and preferably tapers towards this. Kite according to one of the preceding claims, wherein the sheath ( 16 ) of two interconnected shell parts ( 18 . 20 ) consists. Kite according to claim 3, wherein the sheath parts ( 18 . 20 ) are welded or glued together. Kite according to one of the preceding claims, wherein the front hose ( 4 ) and / or the transverse tube ( 8th ) and / or a stiffening element ( 12 ) by means of a keder-type compound, a Velcro connection or the like detachable with the shield ( 10 ) are connected. Kite according to one of the preceding claims, wherein the sheath ( 18 ) consists of PU / TPU-coated nylon or a sandwich material. Kite according to one of the preceding claims, wherein the material of the sheath ( 16 ), of the transverse tube ( 8th ) and / or the front hose ( 4 ) is selected so that in an impact, the forces over a wide range in the structure of the transverse tube ( 8th ) or the front hose ( 4 ) are introduced, so that they deform to reduce the forces in this area.

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