DE1875939U - SKI. - Google Patents

Description

ski

The invention "relates to a glass fiber reinforced plastic ski.

According to the "previously known state of the art, skis are made Glass fiber reinforced plastic made of two resin-impregnated glass fabric or roving plates and a core made of lightweight support material manufactured. This support material consists either of one piece or wood glued in lamellas, made of a plastic foam, the is glued with wood or fiberglass or made of fiberglass laminate ribs. The belts made of glass fabric or roving plates are either pre-hardened or they are wet glued to the core. These known designs all have the disadvantage that they are temperature and poorly tolerated fluctuations in humidity. Besides, the Insufficient strength. In many cases the bond will come off. Very often the upper garden stands out from below the bond Core off.

According to the invention it is possible to manufacture a ski, the structure of which consists largely of glass fiber reinforced plastic. The advantage of this construction is that the ski is almost insensitive to environmental influences »

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In Fig. 1, the upper chord and the lower chord 2 are pre-hardened from fabric warp-reinforced in the longitudinal direction or from rovings. These two belts 1 and 2 absorb the stress in the longitudinal direction and can be designed to be of different strengths depending on the desired flexural strength. Within the belts 1 and 2 there is a belt 3 and 4 each made of diagonally cut glass fiber fabric. These torsion belts 3 and k- together with the hardwood strips 6 lying laterally in the core form a torsion bond. By means of this tube, consisting of diagonal fabric belts 3> ^ and wooden strips 6, the torsional rigidity of the ski can be changed independently of the flexural rigidity. The torsional stiffness as well as the flexural rigidity can also be graded over the length of the ski by the number of glass layers in the belts 3 »^ or 1, 2, regardless of the height of the ski. In contrast to the previously known construction methods, there can be different stiffnesses over the length of the ski with a constant construction height.

The core, together with the side hardwood strips β, forms a wave-shaped glass fiber fabric 5 · This fabric 5 and the. Bars 6 jointly take over the support of the belts 1 and 3 against the belts 2 and h - as well as the transmission of the transverse force. It is therefore advisable to lay the fabric 5 diagonally.

To increase the break resistance, the ID belt 1 (pressure belt) stronger designed 8.1s the lower chord 2 (tension chord). This will make the

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Compressive stress in the upper chord 1 reduced and the risk of buckling decreased. In addition, the entire load-bearing system is encased in a glass fiber fabric 7. This can also be cut diagonally be. The fabric 7 reduces the risk of the belts 1, 2, 3 and 4 lifting off the side surfaces and makes it more difficult the penetration of moisture into the core 5 uad 6 what a gradual destruction of the bond would result.

Prevent the hardwood strips 6 arranged laterally in the core Dents in the casing 7 and severe external impact damage here. In addition, the strips 6 are used to fasten the angle steel edges 8 and the deep-drawn hooks. The tread 9 is glued on.

Fig. 2 and Fig. 3 show the core in a section below Binding. To assemble the same, a hardwood plate 1o or hardwood strips 11 are additionally arranged in the core.

- Protection claims -

Claims (8)

RA .180 U H ti Franz Poiger Munich, .den, 7 · March 1963 Sports workshop Munich8 Echardingerstr. 3 claims for protection 1. A glass fiber reinforced plastic ski, characterized in that its upper belt (1) is made stronger is 3.1s its lower chord (2). 2. A glass fiber reinforced plastic ski, characterized geke η η », that torsion belts (3 and k) made of diagonally lying glass fabric are available. 3 · A glass fiber reinforced plastic ski according to claim 2, characterized in that the torsion belts (3 and k) together with the hardwood strips (6) form a torsion tube. ^ - · A glass fiber reinforced plastic ski according to claims 1 to 3> characterized in that the upper belt (1), lower belt (2) and torsion belts (3 and k) are stepped over the length of the ski. 5 · A glass fiber reinforced plastic ski , characterized in that a core (5) made of glass fiber laminate, which is preformed in waves, supports the straps against one another. - 6. A glass fiber reinforced plastic ski according to claim 5 »thereby characterized in that hardwood strips (6) are arranged laterally in the corrugated core (5). 7 A glass fiber reinforced plastic ski according to claims 5 and 6, characterized in that its corrugated core (5 and 6) partially in the area below the bond; or whole is lined with hardwood (io and 11). 8. A glass fiber reinforced plastic ski according to claim 1 to 6, characterized in that the supporting system is encased in a glass fiber laminate.