The present invention relates to a composite synthetic string, which is intended in particular but not exclusively for the stringing of tennis rackets.
Some composite synthetic strings are already known. Described in FR-A-2 491 098 is a synthetic string with two components: polyamide multifilament threads and polyurethane, the multifilaments being integrated in a matrix of polyurethane. The polyurethane binder, whose elastic behavior is quite superior to that of polyamide, makes it possible to obtain, with a particular structure of the string, a high breaking strength and an average hardness expressed by rapid return of the string to its initial position after impact of a ball.
The present invention relates to using this advantage and considerably lengthening the life span of the tennis strings, even when used with rackets with a rigid frame, while having an original appearance.
According to the present invention, the synthetic composite string, particularly for a tennis racket, having threads of a first synthetic material and a binder made of a second synthetic material impregnating to the core, connecting and covering said threads, which are spirally wound, the melting point of the binder being less than that of the threads and its elasticity much higher, said threads being made up of multifilaments, is characterized by the fact that at least one monofilament with two flat sides is arranged in the center of the string, this string undergoing a tensile bending after its formation.
According to another characteristic of the invention, the string is characterized by the fact that the oblong monofilament appears as a contrasted spiral through the transparent binder.
A single flat central thread is sufficient for obtaining the desired effect. Preferably, the central monofilaments are oblong monofilaments with a very high toughness, whose cross section has a general rectangular shape with rounded edges. They constitute a core of the string in a way. It is also possible to provide a few small monofilaments arranged at the periphery of the string in order to resist abrasion. The central monofilament (or bundle of multifilaments) can be colored in order to increase the luminous effect of iridescence. It is also possible to color the mass of polyurethane or binder.
Other characteristics and advantages of the invention will appear in the course of the following description of a particular embodiment given only as a nonlimiting example, with regard to the drawings which represent:
In
Monofilaments 3 also take on the dynamic work of the string. The string according to the invention, furthermore stiffened by the presence of monofilaments, is easier to string up.
Multifilaments 2, as well as monofilaments 3, consist of polyamide known under the name “nylon 6.6,” whose shore hardness “D” is 85, or other polyamides and copolyamides.
The process of manufacturing by twisting of such a string is conventional, that is to say, it consists of coating monofilaments and multifilaments before twisting, and then twisting them with a level of torsion of 50–200 turns/meter, the string being, after twisting and evaporation of the solvent, run through a die for contour regularization and evacuation of the excess polyurethane. After which, a tensile bending is exerted on the string which produces delamination and causes the central monofilaments to appear through the polyurethane.
The spools of multifilaments and oblong monofilaments are mounted on a rotating tray on which the threads are coated with a solution of polyurethane. The threads go into a furnace which evaporates the solvent and prepolymerizes the polyurethane. Then, the threads are thrown in a ring, and the binder is definitively polymerized in a furnace, after which traction is exerted on the thread in order to obtain the desired effect. The string can thus be constructed in a single operation without restarts.
The tensile bending exerted on the string, for example, by means of a capstan, or by passage over an axle or through a squeezing die, causes delamination which makes the spiral of the central monofilaments appear as a helix through the transparent polyurethane. The pitch of the spiral is a function of the twisting.
It has been observed that the strings according to the invention have a sound, during impact of a ball, which is similar to that of natural gut.
The string represented in
Although, in the preceding description, the multifilaments and the monofilaments are made of polyamide, this material can be replaced by any other synthetic material having good dynamic characteristics, such as polyester, for example. The central monofilament threads can have any cross section provided that they have flat sides so that the contact between the two threads can occur over a nonlocalized area.
It goes without saying that numerous variants can be provided, particularly by substitution of technically equivalent means without consequently diverging from the scope of the invention.
Number | Date | Country | Kind |
---|---|---|---|
00 05848 | May 2000 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR01/01371 | 5/4/2001 | WO | 00 | 4/2/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO01/85268 | 11/15/2001 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3048078 | Kaplan et al. | Aug 1962 | A |
3496717 | Costello et al. | Feb 1970 | A |
4055941 | Rivers, Jr. et al. | Nov 1977 | A |
5145172 | Takashima | Sep 1992 | A |
6009699 | Delvael | Jan 2000 | A |
Number | Date | Country |
---|---|---|
0049 196 | Apr 1982 | EP |
2 581 094 | Apr 1985 | FR |
2 770 140 | Oct 1997 | FR |
Number | Date | Country | |
---|---|---|---|
20030145574 A1 | Aug 2003 | US |