DE102009053152B4 - Rope for a jump rope - Google Patents

Abstract

A rope for a jump rope has a cross-sectional shape deviating from a circle, which in a first direction has a largest dimension which is greater than the dimensions in all other directions, the cross-sectional shape having no edges. The rope can have a round core (11, 21, 31) which has a sheath (15, 25, 35). In addition, the surface of the rope can have a smooth structure or an air vortex-inhibiting structure in the manner of a shark skin. Furthermore, the cable cross-section can be symmetrical with respect to the first direction and with respect to a direction perpendicular thereto. The cable cross-section can also be symmetrical with respect to the first direction and asymmetrical with respect to a direction perpendicular thereto. In addition, the cable cross-section can be asymmetrical with respect to the first direction and with respect to a direction perpendicular thereto. Furthermore, the rope 1 as a whole or the sheathing (15, 25, 35) can consist of plastic, leather, rubber or metal. The rope can have a core (11, 21, 31) which is itself a rope which in turn has a core and which consists of one fiber or several twisted or intertwined fibers made of plastic, rubber, leather or metal.

Description

Field of use:

The invention relates to a rope according to the preamble of claim 1.

State of the art:

It is known that jump ropes consist of two handles and a rope that connects the two handles, such as in DE 29 29 198 A1 described. It is known that ropes for jump ropes are usually round. Like in DE 20 2006 002 178 U1 , with a diameter of 6 mm, or in DE 203 02 570 U1 shown. Other examples of using round ropes include: DE 601 00 189 T2 . DE 101 44 345 A1 . DE 29 29 198 A1 or DE 296 15 379 U1 , An example of the use of a non-round rope for jumping rope is in the Korean patent KR 20040073910 (A) to see. Here are grooves in the surface of the rope to make it difficult to twist in use and to allow space-saving stowage of the jump rope by mating the rope sides.

Disadvantages of the prior art:

The previous ropes, which are used for jumping rope, have certain disadvantages due to their shape and surface finish. The maximum achievable jump frequency is determined by the weight and the air resistance. The latter is the cause of the formation of an unpleasant noise when jumping rope.

Object of the invention:

The invention has the object to provide a jump rope with which a high jumping frequency can be achieved with low noise level.

Solution of the task:

This object is achieved by a jump rope with the features of claim 1. Advantageous embodiments can be found in the dependent claims. According to the invention streamlined rope profiles are used. In addition, the flow conditions at the surface of the rope can be improved by a corresponding surface structure.

Advantages of the invention:

The invention has the advantage that higher maximum jump frequencies can be achieved when jumping rope. Another advantage is that less disturbing wind noise caused by the jump rope and that less air vortex form, which therefore less stimulate the rotating rope to vibrate. The special rope profile also acts as an attractive visual appeal. Using the rope profile according to the invention skipping ropes can be adapted specifically to different disciplines of sporty jump-rope. By reducing the air swirls when jumping rope and the resulting noise, the noise development in sports halls is significantly reduced. A rope according to the invention has a smaller volume and thus a lower weight than a corresponding round or rectangular rope whose cross section encloses the cross section of a rope according to the invention. Using the rope profile according to the invention skipping ropes can generate buoyancy, by which a buoyancy force arises, which either counteracts the centrifugal force acting on the rope, or strengthens the centrifugal force. This can be used to increase or decrease the training load due to skipping as needed.

Description of exemplary embodiments:

The in the 1 . 2 and 3 Cross-sections to be seen are examples of the practice of the invention. A rope 1 with a cross section according to the invention is in each case with the ends of handles 2 . 3 attached. These are so moved by the rope-jumping person that the jump rope 1 rotated around the body of the jumping person.

In 1 is a symmetrical rope profile to see the first direction in which the cross section has the largest dimension, and to a second direction which is perpendicular to the first direction. This offers the advantage that the rope has no optimal direction of rotation, but is equally suitable in both directions, ie for forward and reverse rotation.

Despite that, compared to those in the 2 and 3 Shown forms, fluidly less advantageous form, has the profile in 1 a smaller air resistance than a comparable round or square rope. The improved air resistance is achieved by the rope cross-section in the first direction is longer than the second direction. The direction of rotation independence is achieved by the two convex areas 12 and 13 are the same. By tilting the cross section with respect to the first direction, buoyancy can be generated during the rotation of the skipping rope, which either counteracts the centrifugal force acting on the rope or enhances the centrifugal force. Due to the buoyancy caused by the buoyancy, the body of the rope-jumping Person higher burden, without having to accept the disadvantages of a heavier rope in purchasing. Likewise, the force acting on the rope centrifugal force can be reduced by the buoyancy force generated and thereby relieve the body of the rope-jumping person. In this way, the intensity of the body exercise jumping rope, depending on the training goal, additionally be varied.

In addition, the rope, if an increased tensile strength is required, a round core 11 have. This core 11 consists of a rope, with or without a core, made of one or more twisted or braided fibers, which may consist of metal, rubber, leather or plastic.

In addition, the rope with the in 1 described cross-section have a smooth or flow-optimized surface structure. For example, an in 1 Cross-section rope made of a stainless steel wire rope 11 . 21 . 31 with a polyamide sheath 15 . 25 . 35 consist. Out DE 36 09 541 A1 For example, it is known that surfaces can be patterned to reduce the flow resistance of a body to a body having unstructured rough or smooth surfaces.

In 2 a rope profile is shown which is symmetrical to a first direction in which the cross section has the largest dimension and is not symmetrical perpendicular thereto. As a result, this profile has an optimal side to the air flow or an optimal direction of rotation for jumping rope. This lies in the first direction, in which the cross section has the largest dimension, with the profile nose 22 ahead. By determining the optimum direction of rotation and the asymmetric shape to the second direction, a smaller air resistance is achieved than with the direction-independent variant of the invention, which in 1 is shown. The improved air resistance is achieved by the rope with the profile nose 22 is rotated in advance. As a result, the air flows from the larger profile nose 22 to the smaller profile back 23 and forms less air swirl. For safety reasons, the profile back 23 , not, as usual with teardrop-shaped or wing-shaped cross sections, realized as a narrow edge, but rounded. A narrow edge would result in a great risk of injury from the rope if the user confused the direction of rotation of the jump rope. Here, as in the other examples, the front area in the direction of movement is referred to as the profile nose and the rear area in the direction of movement is referred to as the profile rear side. By tilting the cross-section with respect to the first direction, buoyancy can be generated during the rotation of the skipping rope which counteracts or enhances the centrifugal force acting on the rope. The at the beginning, that is in the direction of movement in front, and at the end, that is in the direction of movement behind, rounded rejuvenation 24 connects the profile nose 22 and the profile back 23 , The rejuvenation 24 may be convex and / or concave and / or straight. The rope can be used to increase the tensile strength of a core 21 have. The same applies to this as for the core of the first embodiment 1 , For the surface condition of in 2 The same applies to the illustrated rope as for the surface structure of the first embodiment 1 , For example, an in 2 Cross-section rope made of a stainless steel wire rope 11 . 21 . 31 with a polyamide sheath 15 . 25 . 35 consist.

In 3 is to see both the first direction in which the cross section has the largest dimension, as well as to a direction perpendicular thereto asymmetric rope profile. This offers the advantage that the rope has an optimal side to the air flow or an optimal direction of rotation for jumping rope, as well as the rope in the 2 is shown in cross section. Due to the asymmetry, a low air resistance can be achieved and the cross-section can be influenced by the air during the rotation of the skipping rope so that buoyancy arises, which counteracts depending on the shape of the cross section of the centrifugal force caused by the rotation of the rope, or even the centrifugal force intensified. By an inclination of the cross section with respect to the first direction, during the rotation of the jump rope, even additional buoyancy can be generated, which counteracts the centrifugal force acting on the rope, or acts with the centrifugal force. The rejuvenation 34 , which is rounded at the beginning, in the direction of movement at the front, and at the end, in the direction of movement behind, rounded and convex and / or concave and / or straight can be formed connects the profile nose 32 with the profile back 33 , The rope can be used to increase the tensile strength of a core 31 have. The same applies to this as for the core of the first embodiment 1 , For the surface condition of in 3 The same applies to the illustrated rope as for the surface structure of the first embodiment 1 , For example, an in 3 Cross-section rope made of a stainless steel wire rope 11 . 21 . 31 with a polyamide sheath 15 . 25 . 35 consist.

It is also readily possible to deviate from the examples profiles having the properties described. For non-directional profiles, the air-flowed shape 12 . 13 is the same for both rope rotation directions. In addition, the ratio of length to width is such that the profile is longer than it is wide. For directional profiles applies that the profile nose 22 . 32 wider than the profile back 23 . 33 to ensure that as few air vortices form during the jump of the rope behind the rope. In addition, the ratio of length to width is such that the profile is longer than it is wide.

In addition, a combination of different profiles is possible, for example, in the middle of the rope 1 a in 3 described cross section is used and in the range of handles 2 . 3 a in 2 described cross-section. It should be noted that the transition of the two cross sections runs fluently and free of edges. In addition, for example, the central cross-section, with its first direction, may be inclined to the first direction of the other cross-section. There are also readily deviating from the examples profile combinations and inclinations of the profiles possible, which have the properties described.

Claims (10)

Rope for a jump rope, characterized in that it has a cross-sectional shape deviating from a circle, which in a first direction has a largest dimension which is larger than the dimensions in all other directions, and in that the cross-sectional shape has no edges. Cable according to claim 1, characterized in that it has a round core ( 11 . 21 . 31 ), which is a sheath ( 15 . 25 . 35 ) contains. A rope according to claim 1 or 2, characterized in that the surface of the rope has a smooth or air vortex inhibiting structure in the manner of a sharkskin. Cable according to one of the preceding claims, characterized in that the cable cross section is symmetrical with respect to the first direction and with respect to a direction perpendicular thereto. Cable according to one of claims 1 to 3, characterized in that the cable cross-section with respect to the first direction is symmetrical and asymmetrical with respect to a direction perpendicular thereto. Cable according to one of claims 1 to 3, characterized in that the cable cross section is asymmetrical with respect to the first direction and with respect to a direction perpendicular thereto. Rope according to one of the preceding claims, characterized in that the rope 1 total or the sheath ( 15 . 25 . 35 ) made of plastic, leather, rubber or metal. Rope according to one of the preceding claims, characterized in that the core ( 11 . 21 . 31 ) itself is a rope, which in turn has a core, and which consists of a fiber or more twisted or interlaced fibers, which consist of plastic, rubber, leather or metal. Rope according to one of the preceding claims, characterized in that the rope 1 a plurality of identical cross sections according to the invention, whose first directions are inclined relative to the first directions of the other cross sections or more than a cross section according to the invention, which is connected to the other cross sections according to the invention fluently and free of edges and / or their first directions relative to the first directions the other cross sections are inclined. Rope according to one of the preceding claims, characterized in that when the rope profile flows through a fluid, a buoyancy force arises, which counteracts the force acting on the rope centrifugal force caused by the rotation of the rope, or strengthens the centrifugal force.

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