JP2014226383A - Racket - Google Patents

Abstract

PROBLEM TO BE SOLVED: To widen a sweet spot on a tip end side in a longitudinal direction within a frame.SOLUTION: A racket includes a shaft, a frame joined to a tip end side of the shaft in a longitudinal direction, and a grip joined to a rear end side of the shaft in the longitudinal direction. The frame has a plurality of through-holes which penetrate from an inner circumferential surface to an outer circumferential surface for inserting a string. In the through-hole which is configured for inserting the string along a width direction perpendicular to the longitudinal direction on a hitting surface of the racket and is positioned on the tip end side in the longitudinal direction rather than a center of the frame, a first angle made by a penetrating direction of the through-hole and the width direction is smaller than a second angle made by a normal line in the inner circumferential surface at a position where the through-hole is provided and the width direction.

Description

  The present invention relates to a racket used for badminton or the like.

  A racket used for badminton or the like generally has a shaft, a frame joined to the front end side in the longitudinal direction of the shaft, and a grip joined to the rear end side in the longitudinal direction of the shaft to pass the string. A plurality of holes are provided along the circumferential direction of the frame (see, for example, Patent Document 1). In the frame, a plurality of vertical strings, which are parts of strings extending in the longitudinal direction, are arranged at intervals in the width direction orthogonal to the longitudinal direction, and horizontal strings, which are parts of strings extending in the width direction, are arranged in the longitudinal direction. A string is stretched to form a net-like striking surface so that a plurality of them are arranged at intervals.

JP 2000-42145 A

  In the racket, by reducing the frame area, high-speed swing is possible, and the speed of the shuttlecock during smashing can be improved. However, when the frame area of the racket is reduced, the sweet spot is also reduced and the controllability is lowered. In addition, it is known that the speed of the shuttlecock is improved by smashing using the upper part (longitudinal tip side part) in the frame. Especially, advanced players tend to use the upper part in the frame when hitting. There is.

  The present invention has been made in view of such circumstances, and an object of the present invention is to widen the sweet spot on the front end side in the longitudinal direction in the frame.

A main invention for achieving the above object is a racket having a shaft, a frame joined to the front end side in the longitudinal direction of the shaft, and a grip joined to the rear end side in the longitudinal direction of the shaft. The frame is provided with a plurality of through holes penetrating from the inner peripheral surface to the outer peripheral surface for passing the string, and the string extending along the width direction orthogonal to the longitudinal direction on the striking surface of the racket In the through hole that passes through and is located closer to the distal end side in the longitudinal direction than the center of the frame, the first angle formed by the through direction of the through hole and the width direction is the through hole. It is a racket characterized by being smaller than a second angle formed by the normal direction of the inner peripheral surface and the width direction at the position where is provided.
Other features of the present invention will become apparent from the description of the present specification and the drawings.

  According to the racket of the present invention, the sweet spot on the front end side in the longitudinal direction in the frame can be widened.

It is the front view and side view of a racket for badminton. It is a front view of the upper half of the frame which a racket has. 3A and 3B are diagrams showing a difference in the movable range of the horizontal string due to a difference in the penetration direction of the string hole.

=== Summary of disclosure ===
At least the following matters will become clear from the description of the present specification and the drawings.
That is, a racket having a shaft, a frame joined to the front end side in the longitudinal direction of the shaft, and a grip joined to the rear end side in the longitudinal direction of the shaft, wherein the frame has a string A plurality of through-holes penetrating from the inner peripheral surface to the outer peripheral surface, and passing the string along the width direction perpendicular to the longitudinal direction on the striking surface of the racket, In the through hole located on the tip side in the longitudinal direction from the center of the frame, the first angle formed by the through direction of the through hole and the width direction is the inner circumference at the position where the through hole is provided. It is a racket characterized by being smaller than a second angle formed by the normal direction of the surface and the width direction.
According to such a racket, it is possible to lengthen the movable range of the string along the width direction that is stretched at the front end side in the longitudinal direction in the frame. Therefore, it is possible to increase the deformation amount of the string at the time of striking at a position on the front end side in the longitudinal direction in the frame, and it is possible to widen the sweet spot on the front end side in the longitudinal direction in the frame.

Such a racket is a through hole through which the string along the width direction passes, and the string along the longitudinal direction is not passed through the through hole in which the first angle is smaller than the second angle. It is a racket characterized by this.
According to such a racket, it is possible to facilitate the drilling of the frame.

Such a racket is characterized in that the first angle is zero degrees.
According to such a racket, the sweet spot at the front end side in the longitudinal direction in the frame can be expanded more reliably.

In this racket, the through hole through which the string along the width direction passes, and the through hole whose first angle is smaller than the second angle is located behind the center of the frame in the longitudinal direction. It is the racket characterized by not being provided in the end side.
According to such a racket, it is possible to suppress the sweet spot on the rear end side in the longitudinal direction in the frame from being unnecessarily widened.

In such a racket, in the through hole that passes the string along the longitudinal direction, the through direction of the through hole is along the normal direction of the inner peripheral surface at the position where the through hole is provided. It is a racket characterized by.
According to such a racket, it is possible to prevent the sweet spot from being excessively spread in the longitudinal direction.

=== About Racket 1 ===
Hereinafter, as an example of the racket according to the present invention, a badminton racket will be described as an example. FIG. 1 is a front view and a side view of a badminton racket (hereinafter, racket 1). The left figure is a front view and the right figure is a side view. FIG. 2 is a front view of the upper half of the frame 10 included in the racket 1. The racket 1 is stretched on the inner side of the shaft 20, the frame 10 joined to the front end side in the longitudinal direction of the shaft 20, the grip 30 joined to the rear end side in the longitudinal direction of the shaft 20, and the frame 10. It has the string 40 and the grommet 50 through which the string 40 is passed. For explanation, the direction perpendicular to the longitudinal direction on the striking surface of the racket 1 (on the plane along the striking surface) is referred to as the width direction, and the direction perpendicular to the striking surface of the racket 1 is referred to as the thickness direction.

  The shape of the frame 10 is a substantially elliptical shape extending in the longitudinal direction. In addition, the frame 10 is provided with a string hole 11 (corresponding to a through-hole) through which the string 40 passes through the inner peripheral surface 10a to the outer peripheral surface 10b. A plurality are provided at intervals along the circumferential direction. As shown in FIG. 2, the grommet 50 has a cylindrical portion 51 and a head portion 52, and holes for allowing the string 40 to pass are provided in the cylindrical portion 51 and the head portion 52. The cylindrical portion 51 of the grommet 50 is passed through the string hole 11, the tip of the cylindrical portion 51 protrudes from the inner peripheral surface 10 a of the frame 10, and the head 52 is locked by the outer peripheral surface 10 b of the frame 10.

  Further, when the string 40 is stretched on the frame 10, for example, the string 11 protruding from the inside of the frame 10 to the outside of the frame 10 through the string hole 11 (grommet 50) The operation of folding back along 10b and passing through the next string hole 11 (grommet 50) is repeated. As a result, a plurality of “horizontal strings 41” that are portions of the strings 40 along the width direction are stretched inside the frame 10 at intervals in the longitudinal direction, and the strings along the longitudinal direction so as to intersect the lateral strings 41. A plurality of “vertical strings 42”, which are 40 parts, are stretched at intervals in the width direction to form a net-like striking surface. It should be noted that since the groove portion 12 is provided in the outer peripheral surface 10 b and the opening portion of the string hole 11 is provided in the groove portion 12 at the front end portion in the longitudinal direction of the frame 10, the string 40 is folded at the groove portion 12.

=== About String Hole 11 ===
3A and 3B are diagrams showing a difference in the movable range of the horizontal string 41 due to a difference in the penetration direction of the string hole 11. In the racket 1, by reducing the area of the frame 10 (the area of the frame 10 and the hitting surface), the air resistance during swing is reduced and high-speed swing is possible, so the speed of the shuttlecock during smashing is improved. Can do. However, when the area of the frame 10 is reduced, the sweet spot is also reduced and the controllability is lowered. The sweet spot is a portion having good resilience and less vibration at the time of hitting. In the substantially elliptical frame 10, the horizontal string 41 passing through the side (both ends in the width direction and the center in the longitudinal direction) is in the longitudinal direction. The vertical string 42 that is longer than the horizontal string 41 that passes through the end portion and that passes through the top (the front end portion in the longitudinal direction and the center portion in the width direction) is longer than the vertical string 42 that passes through the end portion in the width direction. Since the amount of deformation of the string 40 when hitting at the center of the frame increases, the center of the frame 10 becomes a sweet spot. On the other hand, it is known that the speed of the shuttlecock is improved by smashing using a portion on the front end side in the longitudinal direction in the frame 10. Tend to use. Therefore, the racket 1 of the present embodiment aims to widen the sweet spot on the front end side in the longitudinal direction in the frame 10.

  Therefore, in the present embodiment, as shown in FIG. 2, among the plurality of string holes 11 through which the horizontal string 41 passes, the string holes 11 penetrating the distal end side in the longitudinal direction from the center O of the frame 10. The angle θ1 formed by the direction and the width direction (hereinafter also referred to as a “penetration angle”, which corresponds to the first angle) is a normal direction (inner circumference) of the inner circumferential surface 10a of the frame 10 at the position where the string hole 11 is provided It is smaller than an angle θ2 (hereinafter also referred to as “normal angle”, which corresponds to a second angle) formed by the width direction and a direction perpendicular to the tangent to the surface 10a.

  Specifically, among the horizontal strings 41 arranged in the longitudinal direction, two string holes 11a (3) and 11b (3) through which the third lateral string 41 (3) passes from the distal end side in the longitudinal direction, and the fourth string Two string holes 11a (4), 11b (4) for passing the horizontal string 41 (4), two string holes 11a (6), 11b (6) for passing the sixth horizontal string 41 (6), and 8 The through angle θ1 of a total of eight string holes 11 (hereinafter also referred to as “horizontal string holes”) of the two string holes 11a (8) and 11b (8) through which the th horizontal string 41 (8) passes is determined from the normal angle θ2. Also make it smaller. Since the cylindrical portion 51 of the grommet 50 is passed along the string hole 11, the angle θ1 formed by the axial direction and the width direction of the grommet 50 passed through the eight horizontal string holes 11 is also smaller than the normal angle θ2. It has become.

  Further, in the racket 1 of the present embodiment, the horizontal string hole 11 is penetrated so that the penetrating direction of the horizontal string hole 11 is as much as possible in the width direction (direction in which the horizontal string 41 extends in the frame 10). That is, the horizontal string hole 11 is penetrated so that the penetration angle of the horizontal string hole 11 is as close to zero degree as possible. In FIG. 2, the penetration angle θ1 of the horizontal string holes 11a (6), 11b (6), 11a (8), 11b (8) through which the sixth and eighth horizontal strings 41 (6), 41 (8) are passed is shown. It is zero degrees. However, the present invention is not limited to this. For example, the penetration angle θ1 of the horizontal string hole 11 through which the third and fourth horizontal strings 41 (3) and 41 (4) pass may be set to zero degrees, and conversely, the sixth And the horizontal string hole 11 through which the eighth horizontal string 41 (6), 41 (8) passes may be made larger than zero degree, or two horizontal string holes 11 through which the same number of horizontal strings 41 pass. The through angle θ1 may be varied. Further, the penetration angle of the string hole 11 through which the first and second horizontal strings 41 (1) and 41 (2) pass may be made smaller than the normal angle.

  Here, as shown in FIG. 3B, the penetration direction of the horizontal string hole 11 (the horizontal string holes 11a (4) and 11b (4) through the fourth horizontal string 41 (4) in the figure) is the normal direction. Suppose that it was along. In this case, since the horizontal string 41 (4) bends relatively large at positions p3 and p4 that pass through the inner peripheral surface 10a of the frame 10, the movement of the horizontal string 41 (4) at the positions p3 and p4 is caused. It will be fixed. Therefore, the movable range in the width direction of the horizontal string 41 (4) is the length Lb between the inner peripheral surfaces 10a of the frame 10.

  On the other hand, in the racket 1 of this embodiment, the penetration angle θ1 of the horizontal string hole 11 is made smaller than the normal angle θ2. Therefore, as shown in FIG. 3A, the angle at which the horizontal string 41 (4) bends at a position passing through the inner peripheral surface 10a of the frame 10 can be made smaller than in the case of FIG. The horizontal string 41 (4) can be bent at the positions p1 and p2 where 4) passes through the outer peripheral surface 10b of the frame 10. Therefore, the movable range in the width direction of the horizontal string 41 (4) can be set to the length La between the outer peripheral surfaces 10b of the frame 10, and the movable range of the horizontal string 41 (4) is larger than that in the case of FIG. 3B. Can be long. In particular, by setting the penetration angle θ1 of the horizontal string hole 11 to zero degrees, the movable range of the horizontal string 41 (4) can be lengthened more reliably. As a result, it is possible to increase the deformation amount of the string 40 when striking at a portion on the distal end side in the longitudinal direction with respect to the center portion in the frame 10, and to improve the resilience.

  That is, in the racket 1 of this embodiment, the movable range of the horizontal string 41 passing through the eight horizontal string holes 11 located between the top and the side of the frame 10 is changed to the movable range of the horizontal string 41 passing through the center of the frame 10. Therefore, the sweet spot at the front end side in the longitudinal direction in the frame 10 can be widened to improve the controllability. Therefore, even if the area of the frame 10 is reduced to enable high-speed swing, the sweet spot can be prevented from being reduced. In addition, it is possible to improve the flying of the shuttlecock and the feeling of hitting the ball when smashing using the portion on the front end side in the longitudinal direction in the frame 10, which is suitable for the player who uses the portion on the front end side in the longitudinal direction in the frame 10. The racket 1 of the present embodiment can be provided as a secure racket 1.

  Further, in the racket 1 of the present embodiment, the penetration direction of the string holes 11 other than the eight horizontal string holes 11 located between the top and the side of the frame 10 is set in the position where each string hole 11 is provided. It is along the normal direction of the inner peripheral surface 10a. If the penetration direction of all the string holes 11 passing through the horizontal string 41 is along the width direction and the penetration direction of all the string holes 11 passing through the vertical string 42 is along the longitudinal direction, the sweet spot is excessively widened. End up. If it does so, it will become difficult to judge which site | part in the flame | frame 10 is hitting, and control property will fall conversely. Further, the speed of the shuttlecock is reduced.

  In particular, the advanced player tends to use the front end side in the longitudinal direction of the frame 10 at the time of hitting, so there is no need to widen the sweet spot at the position on the rear end side in the longitudinal direction than the center of the frame 10. Therefore, like the racket 1 of the present embodiment, the sweetening at the front end side in the longitudinal direction in the frame 10 is achieved by aligning the penetration direction of the string hole 11 provided on the rear end side in the longitudinal direction of the frame 10 along the normal direction. Only the spot can be widened, and the sweet spot on the rear end side in the longitudinal direction can be prevented from being unnecessarily widened.

  Further, the longitudinal direction of the racket 1 is longer than the width direction, and the vertical string 42 has a wider movable range than the horizontal string 41, so it is not necessary to dare to widen the movable range of the vertical string 42. Therefore, like the racket 1 of the present embodiment, the sweet spot can be prevented from being excessively spread in the longitudinal direction more than necessary by making the penetration direction of the string hole 11 through which the vertical string 42 passes along the normal direction. .

  Moreover, for example, drilling with a drill or the like is easier when the penetration direction of the string hole 11 is along the normal direction than when the string hole 11 is along the width direction or the longitudinal direction. Therefore, as in the racket 1 of the present embodiment, the drilling process of the frame 10 can be facilitated by causing the string holes 11 other than the eight horizontal string holes 11 to pass along the normal direction.

  Further, in the racket 1 of the present embodiment, the string string 11 through which the horizontal string 41 is passed and the string hole 11 through which the vertical string 42 is not passed among the string holes 11 positioned on the distal end side in the longitudinal direction from the center O of the frame 10. The penetration angle θ1 is made smaller than the normal angle θ2. That is, the penetrating direction of the string hole 11 through which the horizontal string 41 and the vertical string 42 pass is set along the normal direction. For example, in FIG. 2, the string holes 11a (5), 11b (5), 11a (7), 11b (through the fifth and seventh horizontal strings 41 (5), 41 (7) from the front end in the longitudinal direction ( 7) The penetration direction is along the normal direction.

  The string hole 11 through which the two strings 40 pass has a larger hole diameter than the string hole 11 through which only one string 40 passes, and the movement of the horizontal string 41 on the inner peripheral surface 10a of the frame 10 is difficult to be regulated. The movable range of the string 41 is unlikely to be shortened. Therefore, even if the penetration direction of the string hole 11 through which the two strings 40 pass is along the normal direction, it is possible to prevent the sweet spot from becoming small. In other words, in order to widen the sweet spot, it is not necessary to increase the hole diameter of the string hole 11 through which only the horizontal string 41 passes, so that the strength of the frame 10 can be increased. Further, by making the penetration direction of the string hole 11 through which the two strings 40 pass along the normal line direction, it is possible to facilitate the drilling process of the frame 10.

  Also, if the penetrating direction of the string hole 11 through which the two strings 40 pass is along the width direction, the bending angle θ3 of the vertical string 42 becomes a right angle or an angle close thereto as shown in FIG. 3B. End up. If it does so, the stress at the time of impact will concentrate on the corner | angular part which the vertical string 42 bent. Therefore, by making the penetration direction of the string hole 11 through which the two strings 40 pass along the normal line direction, the bending angle of the vertical string 42 can be moderated and the stress concentration at the time of striking can be suppressed. 50 strength reduction can be suppressed. However, the present invention is not limited to this, and the penetrating direction of the string hole 11 that is positioned on the distal end side in the longitudinal direction from the center O of the frame 10 and that passes the horizontal string 41 and the vertical string 42 may be along the width direction.

  Further, in the racket 1 of the present embodiment, the material (for example, resin) of the grommet 50 that is passed through the eight horizontal string holes 11 positioned between the top and the side of the frame 10 is passed through the other string holes 11. The material is harder than the material of the grommet 50. By doing so, the frictional resistance between the grommet 50 passed through the horizontal string hole 11 and the horizontal string 41 can be made smaller than the frictional resistance between the grommet 50 passed through the other string hole 11 and the horizontal string 41. it can. Therefore, the horizontal string 41 passed through the horizontal string hole 11 becomes easier to move, and the deformation amount of the string 40 when hitting at the front end side in the longitudinal direction in the frame 10 can be increased, and the resilience can be increased. This can be further improved. That is, the sweet spot on the front end side in the longitudinal direction in the frame 10 can be more reliably expanded.

  In addition, some rackets 1 have a shorter length in the width direction at the front end side in the longitudinal direction of the frame 10 than at a rear end side in the longitudinal direction. In such a racket 1, the horizontal string 41 passing through the portion on the front end side in the longitudinal direction of the frame 10 is shorter than the movable range than the horizontal string 41 passing through the portion on the rear end side in the longitudinal direction. The racket 1 becomes more effective. Further, the racket 1 has a shape in which the top of the frame 10 is crushed and tapered. In such a racket 1, the normal angle θ 2 of the string hole 11 provided between the top and the side of the frame 10 becomes relatively large, and the movement of the horizontal string 41 is restricted by the inner peripheral surface 10 a of the frame 10. Since it is easy, the racket 1 of this embodiment becomes more effective.

  As mentioned above, said embodiment is for making an understanding of this invention easy, and is not for limiting and interpreting this invention. The present invention can be changed and improved without departing from the gist thereof, and it is needless to say that the present invention includes equivalents thereof.

  For example, in the above embodiment, a badminton racket is used as an example of the racket according to the present invention, but the present invention is not limited to this. For example, the present invention may be applied to a tennis racket, a squash racket, or the like. Moreover, in said embodiment, although the racket 1 by which the string 40 was stretched in the flame | frame 10 was mentioned as an example as a racket which concerns on this invention, it is not restricted to this, The racket by which the string 40 is not stretched But you can.

1 racket, 10 frames, 11 string holes (through holes), 12 grooves,
20 shaft, 30 grip, 40 string, 41 side string,
42 vertical string, 50 grommets, 51 cylinder, 52 heads,

Claims (5)

A racket having a shaft, a frame joined to the front end side in the longitudinal direction of the shaft, and a grip joined to the rear end side in the longitudinal direction of the shaft,
The frame is provided with a plurality of through holes penetrating from the inner peripheral surface to the outer peripheral surface in order to pass the string,
On the striking surface of the racket, the through-hole that passes the string along the width direction orthogonal to the longitudinal direction, the through-hole located on the distal end side in the longitudinal direction from the center of the frame, The first angle formed by the through direction of the through hole and the width direction is smaller than the second angle formed by the normal direction of the inner peripheral surface at the position where the through hole is provided and the width direction;
A racket characterized by. The racket according to claim 1,
The racquet characterized in that the string along the longitudinal direction is not passed through the through-hole through which the string along the width direction passes, wherein the first angle is smaller than the second angle. . The racket according to claim 1 or 2,
The racket characterized in that the first angle is zero degrees. The racket according to any one of claims 1 to 3,
The through hole for passing the string along the width direction, the through hole having a first angle smaller than the second angle is provided on the rear end side in the longitudinal direction from the center of the frame. A racket characterized by not. The racket according to any one of claims 1 to 4,
In the through-hole through which the string along the longitudinal direction passes, the through-direction of the through-hole is along the normal direction of the inner peripheral surface at the position where the through-hole is provided.

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