JPH09299516A - Racket frame - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To provide a racket frame made of fiber-reinforced synthetic resin, which is suitable for advanced players and which is easy to spin and has good controllability. A shaft portion 3 has an I-shaped cross section. The back width T of the racket frame 1 is 22 mm or less at least in the shaft portion, preferably 14 to 22 mm
Especially, it is set to 18 to 20 mm. Bending deflection is 14
mm or more.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a racket frame for hard tennis, and more particularly to a racket frame for advanced players who is excellent in spin imparting performance and control performance.

[0002]

2. Description of the Related Art As a rigid tennis racket frame,
Those made of fiber reinforced synthetic resin are widely used. Such a fiber-reinforced synthetic resin racket frame is formed by laminating a prepreg sheet around a core material, placing the prepreg sheet in a frame-shaped cavity of a mold, and heating it (for example, JP-A-5-96030). Issue).

By the way, in the conventional racket frame made of fiber reinforced synthetic resin for general players, the back width (the thickness in the direction perpendicular to the face surface) is made larger than 22 mm in order to enhance the resilience, and the rigidity is enhanced. . In addition, the cross-sectional shape of the shaft portion of the conventional fiber-reinforced synthetic resin racket frame is generally circular or square.

[0004]

The conventional back width is 22 mm.
Since the racket frame made of fiber-reinforced synthetic resin for general players, which is larger than the above, does not have high rigidity, the contact time between the ball and the gut is shortened, and spin is hard to be applied to the hit ball. For this reason, it was unsatisfactory for advanced players who tried to spin the ball strongly.

A racket frame having a back width of 22 mm or less can be easily bent, but
If the back width is simply set to 22 mm or less, the racket frame is likely to be twisted and the ball controllability is deteriorated. Poor ball control is a performance that is highly hated by advanced players.

As a countermeasure against this, it is conceivable to insert a strut or a beam into the shaft portion. However, in this case, the weight of the racket frame is increased and the air resistance is increased, so that the swingability is deteriorated.

An object of the present invention is to provide a racket frame made of fiber reinforced synthetic resin, which is suitable for advanced players and which is easy to spin and has good controllability.

[0008]

A racket frame of the present invention has a face portion which extends a gut to form a gut surface, a shaft portion which is continuous with the face portion, and a grip portion which is continuous with the shaft portion. In a racket frame made of reinforced synthetic resin, when the shaft portion has an I-shaped cross-sectional shape, the base end of the grip portion is fixed, and a load of 6 kg is applied to the tip of the racket frame in a direction perpendicular to the gut surface. The amount of flexure of the racket frame is 1
It is 4 mm or more, and at least the maximum thickness (back width) T in the direction perpendicular to the gut surface in the shaft portion is 22 mm or less.

The racket frame of the present invention has a spine width of 22 mm or less and a bending deflection of 14 mm or more, and is easily bent, so that the ball is held to a certain extent at the time of a ball hit, and a proper ball is obtained. The contact time can be secured. This makes it easier to spin the hit ball and also provides good ball controllability.
Moreover, since the shaft has an I-shaped cross section,
Despite its small back width, it is difficult to twist and has good ball control.

According to the present invention, the directionality of the ball is controlled by reducing the twist angle about the frame axis to 2 degrees or less when a load of 6 kg is applied to the maximum width portion of the face portion in the direction perpendicular to the gut surface. Stable and less blur on the surface.

[0011]

1 (a) is a front view of a racket frame 1 according to an embodiment, in which a face portion 2, a shaft portion 3 and a grip 4 are all made of fiber reinforced synthetic resin. . A gut insertion hole is provided in the face portion 2, and the gut is stretched through a grommet (not shown). As can be seen from FIG. 1 (b), in this embodiment, the shaft portion 3 has an I-shaped cross section.

At least at the shaft portion, the back width T of the racket frame 1 is 22 mm or less, preferably 14 mm.
-22 mm, especially 18-20 mm. The back width other than the shaft portion 3 may be larger than 22 mm.

The ratio S / T between the back width of the shaft portion 3 and the maximum width S (mm) in the crossing direction and the back width T (mm) is 0.3 to 0.6, especially 0.4 to 0.6. Especially 0.5 ~
0.6 is preferred.

By thus setting the back width to 22 mm or less and the bending deflection amount to 14 mm or more, the contact time between the ball and the gut can be made appropriate, spin can be easily applied, and ball controllability can be improved. it can.

Next, the amount of bending and bending of the racket frame will be described.

I Bending Deflection The bending deflection of this racket frame 1 is as shown in FIG. 2, with the base end of the racket frame 1 fixed over a range of 150 mm, and the load P of 6 kg perpendicular to the gut surface at the tip of the racket frame 1. Bending displacement W of the tip when applied
(Mm).

In the present invention, the bending deflection amount is 1
It is 4 mm or more, but if this bending deflection is too large, high rebound cannot be obtained, and the racket frame becomes excessive during high-speed swing or when hitting the high-speed ball, and the directionality of the ball is stable. do not do.

Therefore, the bending deflection amount is 14 to 24 m.
m is preferably 14 to 20 mm, particularly preferably 15 to 17 mm.

II Twist angle As shown in FIG. 3 (a view of the racket from the front end to the rear end), the racket frame is cantilevered and a maximum load of 6 kg is applied to the maximum width of the head in a direction perpendicular to the gut surface. The twist angle θ generated at this time is measured.

If the twist angle θ is larger than 2.0 degrees, the face surface is easily shaken when the ball is hit. If the twist angle θ is smaller than 1.0 degree, the shot feeling becomes too hard, and the impact transmitted to the hand at the time of impact becomes large. Therefore, it is preferable that the twist angle is 1 to 2 degrees, especially 1 to 1.5 degrees.

As described above, in the present embodiment, the torsional rigidity of the shaft portion is increased by making the shaft portion have an I-shaped cross section.

The racket frame of the present invention is made of fiber reinforced synthetic resin.
Carbon fiber, boron fiber, alumina fiber, ultrafine iron wire, Ti-Si-C-O based fiber (trade name Tyranno fiber),
Aromatic polyamide fibers, aromatic polyester fibers, ultra-high molecular weight polyethylene fibers, etc. can be used, but the tensile modulus is 15 ton / mm ² or more, especially 20 to 40 ton / m.
m ² is preferable, and carbon fiber of high strength and high elasticity type called HM graphite is more preferable in terms of strength and elasticity, and also cost.

As the synthetic resin, epoxy resin, nylon, etc. are preferable, but epoxy resin is preferable in terms of strength, durability and cost.

In order to manufacture the racket frame of the present invention, a plurality of prepreg sheets are laminated around a core material, which is placed in a frame-shaped cavity of a mold and heated, and the racket is made of a fiber reinforced synthetic resin. A normal frame manufacturing method may be used.

The elastic modulus of the fiber reinforced synthetic resin can be changed by changing the amount and orientation of the fibers in the prepreg sheet.

In the above embodiment, the shaft portion 3
Although both ends in the back width direction (upper and lower ends in FIG. 1B) are curved in a substantially arc shape, the shape of this portion is not limited to this. For example, the portions on both ends are shown in FIG.
It may have a flat shape like the shaft portion 3 ″ of (d), or may have a curved surface shape curved more loosely than in the figure. Further, in the above embodiment, the outer circumference of the shaft portion 3 Although the groove 3a is wider than the inner groove 3b (wider in the back width direction), the wider groove 3a is arranged on the inner circumference of the shaft portion 3 as in the shaft portion 3'of FIG. 1 (c). 1D, the wide groove 3c and the narrow groove 3 are also included.
Any of d may be arranged on the inner peripheral side.

The width of the grooves 3a to 3d for making the shaft portion have an I-shaped cross section in the back width direction is 9 to 70% of the back width T.
It is particularly preferably 15 to 60%, particularly 20 to 40%. The depth of the grooves 3a to 3d is 5 to 30 of the maximum width S.
%, Especially 8 to 20%, and particularly preferably 10 to 20%. The width of the groove here means the length between the vertices when the vertices of two crests forming the groove are connected by a straight line perpendicular to the face surface, as shown in FIG. Also,
The groove depth refers to the length of a perpendicular line drawn from the straight line connecting the vertices of the two peaks forming the groove to the deepest part of the groove.

The grooves 3a to 3d preferably have a trapezoidal cross-sectional shape with flat bottom surfaces as shown in the drawing.
Other shapes such as a substantially arc-shaped cross section may be used.

[0029]

As described above, the racket frame of the present invention easily bends and can strongly spin the ball. In addition, since the shaft portion of the racket frame is not easily twisted, the racket frame is less prone to wobbling and the directionality of the ball is stable. The racket frame of the present invention is very suitable for advanced users.

[Brief description of drawings]

FIG. 1A is a front view showing a racket frame according to an embodiment, and FIG. 1B is a sectional view taken along the line BB in FIG. 1A, FIG. 1C, and FIG. The figure is a cross-sectional view of a shaft portion of a racket frame according to another embodiment.

FIG. 2 is an explanatory diagram of measurement of bending rigidity.

FIG. 3 is an explanatory diagram of measurement of twist.

FIG. 4 is an explanatory diagram showing the depth and width of a groove.

[Explanation of symbols]

 1 racket frame 2 face part 3, 3 ', 3 "shaft part 3a, 3b, 3c, 3d groove 4 grip part

Claims (2)

[Claims] 1. A racket frame made of a fiber reinforced synthetic resin, comprising: a face portion that stretches a gut to form a gut surface; a shaft portion that extends to the face portion; and a grip portion that extends to the shaft portion. The section has an I-shaped cross-section, the base of the grip is fixed, and the amount of bending deflection of the racket frame when a load of 6 kg is measured on the tip of the racket frame in a direction perpendicular to the gut plane is 14 mm or more. The racket frame is characterized in that the maximum thickness of at least the shaft portion in the direction perpendicular to the gut surface is 22 mm or less. 2. The twist angle around a frame axis when a load of 6 kg is applied to a maximum width portion of the face portion in a direction perpendicular to a gut surface according to claim 1, wherein a twist angle around a frame axis is 2.0 degrees or less. And racket frame.