前苏联专利SU1537124A3 Method of stringing racquets

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专利摘要:
The method relates to the production of a string (24) for a racket, particularly a tennis racket. The string is a known string, for exemple a gut string or a synthetic string. The conditioning of the string on a support (1), particularly a bobbin, is effected under a traction tension and the length of the string is kept constant. Thus, the elongation of the string under the traction tension effect when winding the string on the support (1) is conveniently between 5 and and 15%. The stringing of the racket with the thus conditioned string (24) should be carried out in an interval of 60 minutes, but preferably 30 minutes, from the removal time of the string from its support (1). The relaxation of the string, i.e. the decrease of tension after the stringing of the racket, is considerably smaller with a string conditioned according to the invention than with a same string which has not been conditioned. Such relaxation reduction is particularly important with a polypropylene string.
公开号:SU1537124A3
申请号:SU864027863
申请日:1986-07-08
公开日:1990-01-15
发明作者:Вольтрон Херберт；Шамесбергер Роберт
申请人:Изошпорт Фербундбаутайле, Гмбх (Фирма)；
IPC主号:

专利说明:

one
(21) 4027863 / 30-12
(86) РСТ / АТ 85/00046 (11.11.85)
(22) 07/08/86
(31) 3556/84
(32) 11/09/84
(33) AT
(46) 01/15/90. Bul 2
(71) Ioshport Ferbundbautaile GmbH (AT)
(72) Herbert Voltron and Robert Schamesberger (AT)
(53) 685.634.24 (088.8)
(56) PCT Application WO 83/03998,
cl. At 29 D 31/00, 1983.
US patent number 4131279, CL. A 63 B 51/00, 1978.
(54) THE METHOD OF THE EXTENSION OF THE PACKAGES (57) The invention makes it possible to improve the performance properties of the racket by reducing the relaxation of the string. This is achieved by pre-stretching the string while winding it onto a coil. A coil is a form of supplying a string to a consumer. The string is placed on a coil under tension with tension to communicate elongation and fixing its ends. The string is fastened to the racket rim within 60 minutes after the string is released from the reel. The preferred time is 30 minutes after being removed from the coil. The decrease in relaxation is significant for polypropylene strings. 4 hp f-ly, 5 ill.
with

(L
The invention relates to sports equipment, in particular tennis rackets.
The aim of the invention is to improve the performance properties of the racket by reducing the relaxation of the string.
Fig. 1 shows the curves of the string stiffness of various materials as a function of its preliminary tension; figure 2 - bearing body for the string, end view, fig.Z - the same section; 4 shows a device for winding a string on a carrying body; Fig. 5 shows the relaxation relaxation curves in the string.
Tensioning strings for tennis rackets pull on the rim of the racket with
given pre-tension, after which the tension is constantly decreasing, and with the percentage decreasing with time. Basically, a string tension reduction generally occurs within about 40 seconds after the string has been tensioned onto the racket rim. This phenomenon, known as relaxation, is characteristic of both the gut strings and the strings made of synthetic materials, so the string must be pulled on the rim of the racket with a pretension that is much higher than the average tension of the strings during the life of the racket. However, the pretension is limited because it is
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must be within the elastic range. When using gut strings, the relaxation is relatively small, however, the gut strings have other drawbacks, which are caused by variations in the quality of the gangue material itself, on the one hand, and high on the other hand, moisture absorption, due to which the length of the strings varies greatly with high air humidity, which degrades the gaming quality racket. In addition, the gut strings are relatively expensive.
The relaxation of polyamide monofilament strings is slightly higher, but still relatively small. Tensioning polyamide string racquets is relatively stiff, which makes players uncomfortable.
Curve A in Fig. 1 for a gut string shows the dependence of the stiffness standard G / .A (in kN, determined by the product modulus of elasticity of the cross-section A chain of A, on the preload tension force FV (.c H). As you can see, The magnitude of the stiffness norm varies slightly with the force of prestressing the string, which confirms the good playing characteristics of tennis paddles with gut strings.
Tension strings of polyamide fibers have the characteristics of stiffness indicated on curve B (Fig. 1): the constant stiffness of the EG.A in the FV string preload tension range from 200 to 300 N is greater than in the gut strings and, moreover, it increases with an increase in the preliminary rate with a relatively greater steepness mostly linearly. It follows that the deformation of the strings, which occurs when the ball meets the racket, is less than that of the gut strings, and as a result, the peak forces perceived by the racket, which are necessary to slow down a certain kinetic energy of the ball, are higher than those of the gut strings. Therefore, the player perceives a racket with tension from synthetic strings as tough, which is stronger than racket with gut strings, the more powerful the blows performed.
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The tension string, in which unidirectionally extending narrow strips of polypropylene, having, for example, a melting index MF1 290/5 determined in accordance with DIN 53735 in the range of 0.3-0.5 g / 10 min, are welded to one another in several strand layers arranged one above the other and have a stiffness characteristic (curve C of Fig. 1), similar to that of a gut-string. However, with such string tension, there is a strong relaxation effect.
The invention is based on the task of producing a string prepared for stretching in the form of a supply to a consumer, in which relaxation during stretching on a racket is reduced. This task is achieved by using a string previously laid on a carrying body under tension with tension to communicate its extension, fixing its ends. The coil 1 with the axis 2, the convex cylindrical surface 3 bounded by the walls 4 and 5 of the coil, and the protrusion 6 on the inner cylindrical surface 7 can be used as a carrying body. On both walls 4 and 6 of the coil there are grooves in the form of notches 8 and 9 dl securing the ends of the tensioned string to be reeled.
The winding of the string onto the coil is provided by means of the device shown in Fig. 4, which includes a winding unit 10, in which the magazine for the string in the form of a drum 11 is mounted on a rotatable part 13 installed in the piece 12 and connected to the engine brake 13 axis 14. In addition to In addition, the device includes a winding unit 15c with a fastening for coil 1 made in the form of a clamping cone 16, the protrusion 7 of which fits into a notch (not shown) of the clamping cone 16. The cone 16 is fixed on the axis 18 mounted in the part 17 for rotation t driven by a motor 19 via a reduction gear 20.
For implementing the method according to the invention, for example, a standard grip string of about 1.3 mm thick, designed for tennis rackets, is used, of great length, for example 500 m, which is wound on a drum 11 that fits on axis 14. At the same time, the coil 1 is fixed on the cone 16 of the winding unit 15. Then the free end 21 of the string is wound from the drum 11 in the direction of the arrow 22 and pressed into the groove 8 of the coil 1 (Fig. 1). After that, I turn on the motor 19 and the motor brake 13, so that the coil rotates in the direction of arrow 23 (counter-clockwise in FIG. 2), and the string 24 overcomes the predetermined torque of the motor brake 13 acting on the drum 11 in the direction of arrow 25 is wound from the drum 11. In this case, the torque of the motor brake is set such that the winding of the string 24 on the coil 1 is carried out with a tensile force of 275 N, at which the string 24 undergoes an elongation of approximately 6% compared to its original length Noah. The winding of the string 24 on the coil 1 is carried out in one layer with a tight fit of the coils to each other until the winding of the surface 3 is complete. Then the motor 19 is turned off, the string 24 at the end of the coils is pressed into the groove 9 of the coil, and then the motor brake is turned off 13. Outside the drum the string 24 separates | So that another 1-2 cm protrudes from the end. The coil with the wound core wire 24 is removed from the clamping cone 16. Thus the coil string 24 is wound so wound on the coil 1 in the form of delivery in accordance with the invention.
After tensioning the string on the rim of the racket, the tensile force of the string decreases as a result of the relaxation of the string material. In order to evaluate this effect from the point of view of measurement technology, string relaxation is determined using a simple test system. To this end, the end of the string to be tested is clamped using a torque sensor and then very quickly stretched with a force of 275 N. The other end of the string is also fixed, after which the decrease in the stretching force existing in the string is observed and evaluated as a function of time. Figure 5 curve A1 presents this dependence in semi-logarithmic
ten
image. As can be seen, the strength of stretching the F string within 30 minutes (1.8 "10E s) decreases from a value of 275 to 226 N.
If a vein string is used to tension a tennis racket, which, as described with the help of Figures 2 and 3, is prepared for tension in an air-conditioned form of delivery in accordance with the invention, the relaxation resulting from the string tensioned on the racket is significantly less than Unconditioned 15 strings. In this case, the decrease in relaxation is the greater, the shorter the time during which the string after unwinding from the carrier body pulls on the racket. This is confirmed by the curve A2 (Fig 5).
Curve B1 (Fig. 5) shows the relaxation of a standard tension string of 1.3 mm in thickness made of polyamide fiber, and Curve B2 shows the relaxation of that 5 string, but prepared in the form of a delivery according to the invention and shortly before the measurement coils. The decrease in relaxation in this case is already significant.
Curve C1 shows relaxation measured on a 1.3 mm tension string from propylene strips, which, according to DIN 53735, has a melting index of MF1 190/5 equal to 0.3 g / 10 min, welded to one another in several located one over another twisted layers, and curve C2 - relaxation of the same string, but prepared in the air-conditioned form of delivery in accordance with the invention. This is where a significant reduction in relaxation is achieved.
The force used to wind the string on the coil 1 should cause an elongation in the string material that should be at least 5% (a limit of 5 to 10% is preferable). This force should not be equal to that provided for tensioning the pre-tensioned racket f.-o, but should have about the same order of magnitude. In particular, the tension of the racket is usually carried out with a pre-tension force, which ranges from 80 to 150% (preferably 80 to 120%) of water
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Ch-tgkka on racket strings, podgo, i., Mio-ntnponyonnogo foo- 1 I it1 and in GOTBRTST-SHI with chtbr-,. in particular, strings made of synthetic .Hermpal give a good effect when the stretching process is carried out with rmec I using a tension | p,
r t .iM or a piece of tension rtgrum in the GS1-e P1. The Mini after it was removed from the ne- cyu f4 about the body. The best results are obtained when this time concurs 20 .15

权利要求:
Claims (5)
[1]
Invention Formula
1, The racket rack, Mj iiC i g fastening strings on 20
The fact that it helps to improve the performance properties of the racket by lowering the pr-Kcairr.i strings uses a string as page-25 TJU for messenger heat under alf-ray. with stretching for loosening and fixing
eight
its ends, with the operation of securing the string on the rim within 60 minutes after the string has been released from the carrier.
[2]
2. Method of claim 1, characterized in that the clamp-and-string operation on the rim is carried out preferably within 30 minutes after the release of the string from the carrier body.
[3]
3. A method according to claim 1, characterized in that the extension reported by the pre-stressed string is 5-15% of its original length.
[4]
4. A method according to claim 1, characterized in that the string fastening operation is carried out with a tension of 80-150% of the tensile stress to impart a preliminary elongation.
[5]
5. A method according to claim 4, characterized in that the tension of the string
preferably it is 80-120% of the stress in the pre-stretch.
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同族专利:

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

FR2240635A5|1973-08-10|1975-03-07|Stup Procedes Freyssinet|Method of handling concrete prestressing cables - involves winding on reel which has adjustably spaced flanges|

GB2030537A|1978-08-31|1980-04-10|Pepsico Inc|Packaging filamentary material|

US4377963A|1981-07-27|1983-03-29|Siminoff Roger H|Self-contained musical string cassette|

AT389642B|1982-05-12|1990-01-10|Isosport Verbundbauteile|METHOD FOR PRODUCING A STRING STRING FOR BALL RACKETS, ESPECIALLY FOR TENNIS RACKETS|AT400002B|1992-04-09|1995-09-25|Isosport Verbundbauteile|METHOD FOR PRODUCING A STRING STRING IN DELIVERY FOR BALL RACKETS, IN PARTICULAR DETECTOR LAG|

DE4242673A1|1992-12-17|1994-06-23|Siegfried Kuebler|String string or string for stringing a racket for ball games|

US6132325A|1997-06-25|2000-10-17|Bertolotti; Fabio P|Interlocking string network for sport rackets|

US6506134B2|1997-06-25|2003-01-14|Fabio Paolo Bertolotti|Interlocking string network for sports rackets|

AT500015B8|2003-07-08|2007-02-15|Isosport Verbundbauteile|BULKAGE SUPPLY IN THE SUPPLY FOR BALLETS AND METHOD FOR MANUFACTURING THIS BESPOKE SITE|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

AT0355684A|AT388301B|1984-11-09|1984-11-09|METHOD FOR PRODUCING A STRING STRING IN DELIVERY FOR BALL RACKETS, THEREFORE PRODUCED STRING STRING AND METHOD FOR STRINGING BALL STRAPS WITH THIS STRING|

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