DE3309455A1 - Aerodynamically shaped structural tube for hang-gliders or the like - Google Patents

Abstract

The invention relates to an aerodynamically shaped structural tube with a droplet-shaped cross-section, especially for tubes of hang-gliders and ultra-light aircraft, which tubes are located in the vicinity of the pilot. In order to be able to hold the tubes in the hands well and, simultaneously, to prevent the risk of injury, it is proposed according to the invention to construct at least the rear edge (3) of the droplet-shaped profile from elastic, cushioned material, preferably from soft rubber. The structural tube consists, for example, of an elliptical aluminium supporting tube (2) having a bonded-on, wedge-shaped, elastic soft-rubber strip (3) or of a round supporting tube (2') which is sheathed with a coating (3') which is droplet-shaped in profile and consists of soft rubber. <IMAGE>

Description

The invention relates to an aerodynamically shaped structural pipe according to the preamble of the patent claim

For hang-gliders and ultralight aircraft, structural tubes that are in the area of the pilot were previously so z. B. for control bars or the trapezoidal tubes, only round tubes are used. In flight competitions, these were In some cases, pipes are clad in teardrop-shaped plastic foils in order to improve flight characteristics achieve. Occasionally, teardrop-shaped in cross-section Aluminum tubes used for structural tubes that are outside the pilot area, such. B. for the tower of Hang gliders. ■

In the area of the pilot, such teardrop-shaped structural tubes cannot be used for various reasons will.

When starting from the run, ζ. B. in a kite, the control yoke tube can be grasped with your hands while the pilot supports himself with his shoulders on the lateral trapezoidal tubes. Drop-shaped structural tubes in profile are difficult to grasp with the hands; also putting on the shoulders to push the kite is uncomfortable.

Furthermore, if the kite lands too flat, the wing tilts forward in the head joint of the trapezoid until the wing tip hits the ground. With this sudden jolt, the pilot swings forward in his harness and often instinctively tries to support himself on the side trapezoidal tubes, which are often bent in the process will. The pilot can also be pressed with his shoulders against the trapezoidal tubes when commuting. at In this case, injuries to the hands and shoulders cannot be ruled out.

The invention is based on the object of a simple to manufacture Specify structure tube that can be handled well and that is not elevated even in the event of a collision with the pilot Risk of injury.

This object is according to the invention by the characterizing Part of claim 1 specified features solved.

After that, at least the rear, the edge of the profile comprehensive part of the structural tube made of an elastic soft material, preferably soft rubber. That Structural tube consists either of an approximately oval-shaped support tube made of aluminum or the like, on the one wedge-shaped strip made of soft rubber is glued to form the teardrop-shaped cross-section / or from an approximately circular support tube with a teardrop-shaped profile Cover made of soft material is sheathed.

A structural pipe according to the invention is significantly more aerodynamic than the round tubes previously used, so that the flight performance of a hang-glider or ultra-light aircraft is improved.

The structural pipe can also be handled without difficulty, since the soft rubber is easily compressed can be. The soft rubber also prevents the hand from slipping off, so that ζ. B. the hang glider at The above-mentioned start from the run can ■ be held more safely than before.

The soft rubber is also resistant, deformed does not and can be glued to the aluminum support tube so that it cannot twist.

A structural tube made from an elliptical aluminum tube and a soft rubber strip can also be used for the trapezoidal base of kites, as the control bracket is on the Aluminum rests on and the rubber is not damaged.

A major advantage of a structural pipe according to the invention is that none of the lining with soft rubber there is a greater risk of injury than with previous round tubes, although the aerodynamic and other properties are improved.

Regardless of whether the structural tube only has a rear edge made of soft rubber or completely made of soft rubber is encased, the support tube has a circular hollow tube made of aluminum. This round cross-section enables. light a simple connection of round tubes, so that the previous fittings z. B. can be used for the trapezoidal corners and the trapezoidal head of kites. This The hollow round cross-section also allows the structural tube to be closed at will by inserting additional round tubes strengthen.

The invention is based on two exemplary embodiments two figures explained in more detail, each showing a cross section through a Stcukturrohr according to the invention is.

In Figure 1, a structural pipe 1 is shown, which consists of a In cross-section approximately elliptical three-chamber support tube 2 made of aluminum and a wedge-shaped one on the support tube 2 glued bar 3 made of cushioning material, for. B. consists of soft rubber, the base surface 4 of which is attached to the circumferential profile of the support tube is adapted and through which the entire structural tube is given a teardrop-shaped profile in cross section. The soft rubber strip has a plurality of hollow spaces 5 running in the longitudinal direction.

The support tube 2 has a central chamber 6, which as Round tube is formed, to which are connected on opposite sides 2 approximately semi-elliptical chambers 7 and 8, so that the support tube 2 receives the aforementioned approximately elliptical cross section. The support tube can usually be on a Aluminum press can be manufactured.

When you touch the aluminum profile, the soft rubber strip becomes compressed. The three-chamber aluminum support tube enables a streamlined and easy-to-grip slim design.

In Figure 2, a further structural tube 1 'is shown. This structural tube has an aluminum support tube 2 ' round cross-section, -that with a drop-shaped in cross-section cover 3 'made of elastic cushioning material how soft rubber is coated. In the area of the pointed rear edge of the teardrop profile are in the soft rubber Cavities 5 'extending in the longitudinal direction of the pipe are provided.

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Claims (8)

Claims 1. Aerodynamically shaped structural tube with teardrop-shaped Profile for hang gliders or the like, especially for those lying in the area of the pilot Tubes, such as control yoke and trapezoidal tubes, characterized in that at least the rear wedge-shaped part of the structural tube is made of elastic soft material. 2. Structural tube according to claim 1, characterized by a support tube (2) which is approximately elliptical in cross section, on which a wedge-shaped bar (3) made of elastic soft material is applied. 3. Structural pipe according to claim 2, characterized in that that the support tube (2) is a three-chamber tube '(5, 7, 8) with a central one designed as a round tube (6) Ka is inside. 4. Structural tube according to one of claims 2 and 3, characterized in that the support tube (2) made of aluminum consists. copy] 5. Structural pipe according to one of claims 2 to 4, characterized characterized in that the bar (3j consists of soft rubber and is glued to the support tube (2). 6. Structural tube according to claim 1, characterized by a support tube (2 ¹ ) and a sheathing this, drop-shaped in profile cover (3 ¹ ) made of elastic soft material. 7. Structural pipe according to claim 6, characterized in that the coating (3 *) consists of soft rubber. 8. Structural pipe according to one of the preceding claims, characterized in that cavities (5, 5 ¹ ) extending in the longitudinal direction are provided in the soft material.