JPH05200130A - Skipping rope - Google Patents

Abstract

PURPOSE:To provide a skipping rope remarkably improved in durability of a rope. CONSTITUTION:In a skipping rope of rotary-type or non-rotary-type so constituted that a grip 1, a bearing 2 and a rope 3 are indispensable parts, and a rotator 4 is an optional part, an impregnated layer with fine-grained fluorocarbon resin by dispersion liquid containing polytetrafluoroethylene is provided on at least one of positions: an inner face of the bearing 2, a base end side of the rope 3 and a front face of the rotator 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flying rope (jump rope) in which the durability of rope is dramatically improved.

[0002]

2. Description of the Related Art Tobinawa as an exercise equipment includes a rotary type having a rotating mechanism such as a rotor and a triangular spring so that a rope can freely rotate in or near a grip, and such a rotating mechanism. It is divided into non-rotating type that does not have. That is, the rotating mechanism is a mechanism that allows the grip and the rope to rotate with respect to each other in order to reduce the twist of the rope.

The rotary type Tobinawa is composed of a grip, a bearing, a rotor and a main member of a rope. A rotor having a rope end sandwiched in a bearing provided at the base end side of the grip is arranged. A locking tool was attached to the end side of the rotor, and the rotor was externally fitted to the rope in a non-fixed state, and the rotor was arranged in the bearing so that part of the rotor protrudes from the bearing. There are things. In the rotating Tobinawa, the rope can move freely without being restricted by the movement of the grip.

Japanese Utility Model Laid-Open No. 61-94
No. 050, No. 62-90657 and No. 64-28668 disclose the structure of a rotary Tobinawa.

There is also a rotary type Tobinawa type in which a rivet is rotatably projected from the base end side of the grip and the end of the rope is fixed to the rivet.

The non-rotating type Tobinawa is composed of a grip, a bearing, and a main member of a rope, and the bearing and the rope are usually free. To prevent it from slipping off, a hook is attached to the end of the rope inserted into the grip.

[0007]

However, since a strong rotating force and a twisting force are applied to the grip side of the rope of Tobinawa during the competition, if the number of jumps increases, either the rotating type or the non-rotating type of Tobinawa Even in this case, the rope may be cut at a portion close to the bearing due to friction between the rotor and the bearing, between the rope and the rotor, and between the rope and the bearing. In the case of the rotary type, it seems that a strong force is not applied to the rope, but if the movement of the rotor in the bearing becomes poor, it is considered that there is a discrepancy between the movement of the rotor and the movement of the rope.

The prevention of rope breakage is improved by selecting the material of the rope, but in that case, it may not be possible to select a rope having good rope performance. For example, a rope made of thermoplastic elastomer is flexible and has good performance both in summer and winter, but has a problem that durability is insufficient, and a rope made of polyvinyl chloride is generally good in durability, but in winter. Has a problem that it becomes hard and is easy to cut. If the durability of the rope can be improved regardless of the material of the rope, the degree of freedom in selecting the material of the rope is increased, and the conventional concerns are solved.

Under such circumstances, the present invention has an object to provide a Tobinawa which has markedly improved durability of the rope.

[0010]

The Tobinawa of the present invention is a rope rotary type in which a grip (1), a bearing (2) and a rope (3) are essential members, and a rotor (4) is an optional member. In rope non-rotating Tobinawa, bearing (2)
An impregnated layer of fine particles of a fluororesin is provided on at least one portion of the inner surface of the above, the base end side of the rope (3), and the surface of the rotor (4).

The present invention will be described in detail below.

The Tobinawa of the present invention may be either rotary type or non-rotary type, and is constituted by the grip (1), the bearing (2) and the rope (3) as essential members. In case of rotating Tobinawa, the rotor (4) shall be additionally provided.

The grip (1), the bearing (2) and the rotor (4) are
It is made of resin such as polypropylene, polyethylene, ABS resin, polyacetal, polyamide, or wood.
The rope (3) is a hollow or solid hollow elastomer made of thermoplastic elastomer such as olefin elastomer, vinyl chloride elastomer, urethane elastomer, polyester elastomer, polyamide elastomer, styrene elastomer, and 1,2-polybutadiene elastomer. Strands are preferably used, and strands made of other rubber or soft resin or braided rope such as polyester fiber can also be used.

In the present invention, at least one portion of the inner surface of the bearing (2), the base end side of the rope (3), and the surface of the rotor (4) (preferably all the parts where frictional force may be applied). (Part), an impregnated layer of fine particles of fluororesin is provided. The impregnated layer is formed by bringing a dispersion liquid in which fluorine-based resin fine particles are dispersed or incompletely dissolved in a medium into contact with an object.

As the fluorine resin, polytetrafluoroethylene is particularly preferable, and a copolymer of tetrafluoroethylene or another fluorine resin may be used. Water or / and an organic solvent is used as the medium, and as the organic solvent, a hydrocarbon solvent, an ester solvent, an alcohol solvent, a ketone solvent, an ether solvent, a halogen-containing solvent, a nitrogen-containing solvent, a Examples include sulfur solvents.

In order to prevent sedimentation and reaggregation of the fine particles of the fluororesin and to improve the permeability to the object, a surfactant (anionic, nonionic, cationic System, amphoteric surfactant, especially fluorine-based surfactant), silicone oil, p
It is preferable to add an H modifier, a viscosity modifier, and the like,
In addition, additives such as stabilizers, antistatic agents, plasticizers and colorants may be added.

The concentration of the fluorine-based resin fine particles in the dispersion liquid of the fluorine-based resin fine particles is usually about 0.5 to 20% by weight, preferably about 1 to 15% by weight, but it is not particularly limited.

The fluororesin fine particle dispersion is brought into contact with the object by dipping, under appropriate temperature (normal temperature or heating) and appropriate pressure (decompression, normal pressure or pressurization) conditions.
It is carried out by means such as coating and spraying. Then, after wiping as necessary, it is naturally dried or forcibly dried. When the contacting is performed by dipping, it is preferable that the operation is performed under reduced pressure or under increased pressure. By doing so, the penetration depth of the fluorine-based resin fine particles into the object becomes deep.

[0019]

[Function] The object, that is, the inner surface of the bearing (2), the base end side of the rope (3), and the surface of the rotor (4) appear to be smooth at first glance, but there are innumerable microscopic irregularities. The fluorine-based resin particles enter into the irregularities and fix there.

The fluorine-based resin has a molecular structure in which the main chain is an organic bond such as a carbon bond, and an inorganic fluorine atom is present around the organic bond. Since fluorine has the highest electronegativity, the carbon-fluorine bond is short and strong.

Therefore, the treated object is provided with excellent heat resistance and slipperiness, and the rope (3) is not easily broken even if a strong frictional force is applied. Further, since antifouling property, water repellency, oil repellency, and chemical resistance are also imparted, it is less likely to cause a frictional force to increase during use or storage of Tobinawa.

[0022]

EXAMPLES The present invention will be further described with reference to examples. Hereinafter, "%" is% by weight.

Example 1 FIG. 1 is a front view showing an example of Tobinawa of the present invention,
A part is cut out and displayed. This Tobinawa is a rope-rotating Tobinawa.

(1) is a hollow polypropylene grip, whose free end side is blind and has a threaded portion formed on the outer periphery of the base end side.

(2) is a polypropylene bearing,
A threaded portion is formed on the inner circumference of the bearing (2) near the grip (1), and an opening is provided on the opposite side.

(3) is a non-hollow rope made of thermoplastic elastomer, and the end of the rope is to be pulled out, so that the fastener (5)
It is crimped with a crimping ring as an example.

A ring-shaped rotor (4) with a flange is rotatably fitted inside the locking tool (5) of the rope (3). When assembling Tobinawa, the rotor (4) is the bearing
It will slightly protrude from the opening in (2).

(6) is a cylindrical cover for grip
When the threaded part of (1) and the threaded part of the bearing (2) are screwed together,
The vicinity of the screwed portion is covered.

Prior to assembling Tobinawa of the above structure, the bearing (2) and the rotor (4) were made of polytetrafluoroethylene fine particles 5%, dimethyl silicone oil 2%, halogen-containing solvent 10%, paraffin medium boiling point solvent 15 %, Fluorine-based surfactant 2%, polyoxyethylene-based nonionic surfactant 5%, water 61% in a fluorine-based resin dispersion liquid at a temperature of 45 ° C. for about 10 minutes, and then the system is brought to a reduced pressure. After decompressing, take out, temperature 8
It was dried with hot air at 0 to 90 ° C.

Tobinawa rope obtained in this way
The load of 2 kg was applied to one end of (3), and the rope was rotated by an automatic rope skipper, and the number of rotations until the rope (3) was cut was obtained. As a result, none of the 10 prototypes was cut even after rotating 50,000 times. In addition, 5 out of 10 prototypes were subjected to a rotation test a total of 100,000 times, but none of them was cut.

Example 2 The same test as in Example 1 was carried out also when only the rotor (4) was impregnated with the fluororesin dispersion liquid.
None of the individual prototypes cut even after rotating 50,000 times. Note that 5 out of 10 prototypes were subjected to a rotation test for a total of 100,000 times, and two of them were cut at a position A in FIG. 1 by 100,000 times.

Comparative Example 1 When the impregnation treatment of the fluorine resin dispersion liquid on the bearing (2) and the rotor (4) was omitted, the same test as in Example 1 was carried out, and five prototypes were 5090 times, 6
All were cut 121 times, 4958 times, 8212 times, and 5344 times at the location A in FIG.

Embodiment 2 FIG. 2 is a front view showing another example of Tobinawa of the present invention, a part of which is cut away. This Tobinawa is a rope-rotating Tobinawa.

(1) is a grip, the bearing of which is on the base end side.
(2) is screwed. (3) is a non-hollow rope made of thermoplastic elastomer, and a rotor (4) is attached to its end.

Before assembling Tobinawa having the above-mentioned structure, the bearing (2) and the rotor (4) were dipped in a fluororesin dispersion liquid of the same composition as in Example 1 at a temperature of 40 ° C. for about 20 minutes and then taken out, It was dried with hot air at a temperature of 80 to 90 ° C.
The end of the rope (3) was similarly impregnated with the fluororesin dispersion liquid.

With regard to the Tobinawa thus obtained,
When the number of rotations until the rope (3) was cut was obtained in the same manner as in Example 1, none of the 10 prototypes could be cut even after rotating 50,000 times.

Comparative Example 2 The same test as in Example 2 was carried out when the impregnation treatment of the bearing (2), the rotor (4) and the rope (3) with the fluororesin dispersion liquid was omitted. 2 of the prototypes were cut up to 5000 times, and 3 of them were cut up to 7000 times, respectively, at the location A in FIG.

Example 3 FIG. 3 is a front view showing another example of Tobinawa of the present invention, a part of which is cut away. This Tobinawa is a non-rotating rope Tobinawa.

(1) is a grip, the bearing of which is on the base end side.
(2) is screwed. (3) is a rope made of a thermoplastic elastomer of a different type from that of Example 1, the end of which is crimped with a crimping ring as an example of a retainer (5) for pulling out the rope. (3) itself is held by the bearing (2).

Before assembling Tobinawa having the above structure, the bearing (2) was dipped in a fluororesin dispersion liquid having the same composition as in Example 1 and a temperature of 40 ° C. Then, the system was brought to a reduced pressure, decompressed, and taken out. And dried with hot air at a temperature of 80 ° C.

With regard to the Tobinawa thus obtained,
When the number of rotations until the rope (3) was cut was obtained in the same manner as in Example 1, none of the five prototypes cut even after rotating 20,000 times.

Comparative Example 3 The same test as in Example 3 was carried out even when the impregnation treatment of the bearing (2) with the fluororesin dispersion liquid was omitted, and all five of the five prototypes were 3000. By the time of cutting, it was cut at the position of A in FIG.

[0043]

In the Tobinawa of the present invention, the durability is dramatically improved, for example, 10 times or more, regardless of the material of the rope. Therefore, it becomes possible to select a rope with an emphasis on rope performance, and the degree of freedom in selecting the rope material increases. For example, a rope made of a thermoplastic elastomer having stable flexibility in summer and winter has been sometimes hesitant to use in terms of durability, but according to the present invention, the durability is remarkable. Since it has been improved to, it can be used without any problems.

The tobinawa of the present invention is also preferable in comparison with the conventional tobinawa in that the rotation of the rope during the jump rope competition is smooth, the squeaking noise disappears and the sound is silent.

[Brief description of drawings]

FIG. 1 is a front view showing an example of Tobinawa of the present invention.

FIG. 2 is a front view showing another example of Tobinawa of the present invention.

FIG. 3 is a front view showing another example of Tobinawa of the present invention.

[Explanation of symbols]

 (1) ... Grip, (2) ... Bearing, (3) ... Rope, (4) ... Rotor, (5) ... Locking tool, (6) ... Cover

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Katsuhisa Ohno 4-6-503 Sumiyoshidai, Higashinada-ku, Kobe-shi, Hyogo Prefecture (72) Inventor Midori Kawamura 40-1 Makishima-cho, Uji-shi, Kyoto Prefecture

Claims (1)

[Claims] 1. Grip (1), bearing (2) and rope (3)
In a rope rotation type or rope non-rotation type Tobinawa constructed by using the rotor as an essential member and the rotor (4) as an optional member, the inner surface of the bearing (2), the proximal end side of the rope (3), the rotor (4)
Tobinawa, characterized in that an impregnated layer of fine particles of a fluororesin is provided on at least one site on the surface of the.