DE1615552C - Rope with high tensile strength and electrical conductivity for use as a tow and antenna rope - Google Patents

Description

^W1C 2. ^e Sei'nach claim L, characterized in that a single first and second metal strip (11, 13) is present.

3. Rope according to claim 1 or 2, characterized in that that the slope of the two metal strips (11,13) is almost the same.

4. Rope according to one of the preceding claims, characterized in that the slope of the first (11) and possibly the second metal strip (13) is smaller than the pitch the steel wires (10) is.

5 rope according to claim 4, characterized in that the winding direction of the first Metal strip (ti) is the same as that of the MaM wires (10).

6 rope according to one of the preceding claims, characterized in that each individual first (11) and each individual second metal strip (13) after being wound in radial direction Direction is compressed.

1 sheet of drawings

The invention relates to a rope with high tensile strength and electrical conductivity for use as a towing and antenna rope, around a core that absorbs the tensile stress from a large number of helically twisted steel wires at least one first; Layer of good conductive wires Wrapped in a helical shape and at least a second layer of highly conductive wires around the first Position helically wound around with opposite lay, the turns of each Touch each other with a tubular jacket, the butt joint of which runs parallel to the rope axis.

A rope is already known which has a core for absorbing the mechanical load and a highly conductive sheath for guiding the current. In this rope, however, the wires of the sheath run parallel to the rope axis. This has the disadvantage ¹ that such a rope cannot be wound onto a drum. You are then forced to apply the jacket only at the place where the rope is laid, which is very time-consuming and expensive.

Another rope of great tensile strength is known, in which between the jacket and core two layers of oppositely laid, well-conducting layers Wires are arranged. A pipe is used as the jacket for this rope, its seam or butt joint runs parallel to the rope axis. As a result of the stiff pipe jacket, this rope cannot or only can without the jacket being wound onto a drum, which is then installed at the place where the rope is laid attention must be paid to 3.

Another rope has become known in which the highly conductive outer sheath on the load-bearing core is rolled on. The rope is considerably stiffened by the rolling, which is why it is either not or only is difficult to wind up.

The object of the invention is now to create a rope that has a high tensile strength and a has high electrical conductivity, and that! sees can be wound up.

This object is achieved in that, according to the invention, instead of the layers of highly conductive wires ■ and the sheath made of copper metal strips are arranged, each with a small Distance between their turns are wound around the core.

It is particularly useful if a single first and second metal strip is present.

It is also advantageous if the slope of the two metal strips is almost the same.

It is also advantageous in the case of a rope whose core is made up of a large number of helically twisted cords Steel wires is formed, the slope of the first and optionally also of the second metal strip to keep smaller than the pitch of the steel wires,

It is also useful if the winding direction of the first metal strip is the same as that the steel wires is.

Finally, it is also advantageous if every single first and every single second metal strip is compressed after winding in the radial direction.

The rope according to the invention is particularly suitable as a Schleppsefl for aircraft, which at the same time as powerful antenna for receiving and transmitting radio signals can be used.

Those wound with the opposite beat. Copper strips result in a very high longitudinal conductivity, since the stripes of the two layers cross each other so that the current is not forced, to follow a helical path, but essentially straight in the longitudinal direction of the rope Could be called.

Furthermore, as a result of the reverse winding of the strips, any self-inductance created in the rope becomes switched off.

Since the strips are made thin, the diameter of the rope can be kept small, so that the wind resistance by adding the strips is not increased significantly. Finally, the thin rope also takes the weight of the rope Copper strips do not overly too.

An embodiment of the invention is shown in the drawing and will be described in more detail below described.

The single figure shows part of the rope partly in section and partly in view.

The rope shown in the figure consists of a core 10 made of 19 steel wires. The slope of the outer Wires of the core 10 corresponds approximately to 8 times the diameter of the core. About the core 10 is a first flat strip 11, e.g. B. made of copper, wrapped in a helix. The strip 11 is e.g. B. 0.43 mm thick and about 3 mm wide. Between adjacent turns of the strip 11 is a small one Distance 12 present to prevent the copper jacket from acting as a tube and the flexibility of the rope lowers. The slope of the strip 11 is in the same direction as that of the outer wires of the Core 10, but smaller, and it corresponds approximately to 1.4 times the diameter of the core 10.

A second strip 13 is wound around the first strip 11, the thickness of which is e.g. B. 0.43 mm and whose width is, for example, 3 mm. Between adjacent turns of the strip 13 are small Distances 14 provided in order to maintain the flexibility of the rope. The slope of the strip 13 is substantially the same as that of the strip 11, but it can be somewhat smaller because of the diameter the helix formed from the strip 13 is larger than that of the strip 11. Im shown In the exemplary embodiment, the strip 13 has a pitch which is approximately 1.2 times the diameter of the core 10 . The lay of the strip 13 is opposite to the lay of the strip 11, so that the two Stripes cross over each other many times. To arrange the two layers tightly around the core 10, they are expediently pressed together in the radial direction after winding.

Comparative tests were carried out on the rope according to the invention. It turned out that if only one layer of a steel strip is used, the electrical efficiency of the rope is 20% amounts to. If an aluminum strip is used, the efficiency increases to 29%. Becomes a strip made of copper, the efficiency increases to about 35%. When using two strips from copper, which are wound on the core with opposite blow, an electric one is obtained Efficiency of 70%, which is in no relation to the increase in the weight of the rope and the Rope diameter. This unexpected result is mainly due to the opposite Winding the two strips through

Claims (1)

which the current can flow essentially in a straight line from one turn to the next in the longitudinal direction of the rope. Patent claims: 1. Rope with high tensile strength and electrical conductivity for use as a towing and Antenna cable around a core that absorbs the tension from a large number of helically twisted steel wires at least a first layer of good conductive wires Wrapped helically and at least one second layer of highly conductive wires around the first layer are wound around helically with opposite blow, the windings each layer touch each other, with a tubular jacket whose butt joint is parallel runs to the rope axis, characterized in that that instead of the layers of good conductive wires and the sheath made of copper Metal strips (11,13) are arranged, each with a small distance (12, 14) between their turns around the core (10)