The present invention relates to a grommet mounted to a frame of a racket to cause a string to avoid contacting the frame, and a racket.
A racket of tennis or badminton includes a loop-shaped frame through which a string is stretched. The frame includes a large number of insertion holes through which the string is inserted at predetermined intervals, and grommets are mounted to the insertion holes.
As the grommet, for example, as disclosed in PLT 1, a grommet is used that includes a plurality of cylindrical portions inserted into the insertion holes and a strip-shaped portion having a backside surface on which the cylindrical portions are continuous. In a state where the string is stretched through the frame, the string is passed through an inner side of the cylindrical portion to be extracted from an inner side of the frame to the outer side of the frame, and the string is folded back along a surface of the strip-shaped portion to be passed through the next cylindrical portion. That is, the string is folded back at an opening position communicated with the cylindrical portion on the surface (an outer surface) of the strip-shaped portion.
PLT 1: Japanese Unexamined Patent Application Publication No. 2005-237877
However, the grommet in PLT 1 has the strip-shaped portion between the adjacent cylindrical portions having the surface formed of a smooth surface. Then, when the folded portion of the string on the grommet is collapsed so as to be depressed by a tensile force of the string, a contact area of the string and the grommet is expanded to the inner side of the frame. There is a problem that a length of a flexure deformation of the string at hitting a ball is shortened by an amount of the expansion, thus reducing a resilience of the ball at the hitting.
The present invention has been made in consideration of the above-described circumstances and an object of the present invention is to provide a grommet and a racket configured to improve resilience performance of a ball at hitting the ball.
A grommet of the present invention includes a strip-shaped portion extending in a predetermined direction, and a cylindrical portion that projects from one surface of the strip-shaped portion, the cylindrical portion bring a portion through which a string passes. A bulge portion is formed on a part on another surface of the strip-shaped portion, the part is along an inner periphery of the cylindrical portion, the bulge portion has a shape bulged more than the other surface. The string is folded back at the bulge portion.
With this configuration, the bulge portion formed at the folded portion of the string can position the fold-back position of the string to the outer side of the frame by the height of the bulge portion. This ensures lengthening a length of the string that possibly has the flexure deformation at hitting a ball even if the bulge portion is depressed, compared with a conventional structure where the bulge portion is not formed. Consequently, an amount of deflection of the string in a ball hitting direction also increases to increase the resilience of the ball at hitting the ball, thus improving the performance in carry of the ball.
According to the grommet of the present invention, preferably, a plurality of the cylindrical portions are formed in the extending direction of the strip-shaped portion at predetermined intervals, and a protrusion is further disposed on the other surface of the strip-shaped portion and between the cylindrical portions adjacent to one another, the protrusion having a distal end to which the string contacts. With this configuration, the string can contact or bite into the distal end of the protrusion. This causes friction between the string and the protrusion to ensure restricting movement of the string positioned on the outer side of the strip-shaped portion with a force applied at hitting a ball. This restriction of the movement ensures efficiently converting the force applied by hitting a ball into repulsion force, and further, ensures increasing contact pressure of a ball hitting surface formed by the string to enhance spin performance.
According to the grommet of the present invention, preferably, a plurality of the protrusions are formed between the cylindrical portions adjacent to one another in the extending direction of the strip-shaped portion at predetermined intervals. With this configuration, the friction force between the string and the protrusion can be much increased to ensure further enhancing the resilience performance and the spin performance.
According to the grommet of the present invention, preferably, the protrusion has a shape extending in a direction intersecting with the contacting string. This configuration can support the strings having various thicknesses, and moreover, the string can easily bite into the distal end of the protrusion to contribute to improving the friction force of them.
A racket of the present invention includes the grommet and a frame to which the string is tightly stretched, the frame forming a ball hitting surface. The grommet is mounted to the frame, and the tightly stretched string is folded back at the bulge portion.
According to the racket of the present invention, preferably, the bulge portion is formed on a part where the string extending in a width direction on a central region of the frame is folded back. This configuration ensures effectively enhancing the resilience of the string on what is called a sweet spot.
According to the present invention, the bulge portion formed at the folded portion of the string ensures enhancing the resilience performance of the ball at hitting the ball.
The following specifically describes embodiments of the present invention by referring to the drawings. While the following describes an example where a grommet according to the present invention is applied to a tennis racket, an application target is changeable without limiting to this. For example, the grommet may be applied to a soft tennis racket, a squash racket, a badminton racket, and similar racket.
As illustrated in
The shaft 13 includes a throat 15 that bifurcates from the grip 12 to the head 11 viewing in the front-back direction, and a yoke 17 is disposed between right and left sides of the throat 15 to form a part of the head 11. Not limited to this, the shaft 13 not being bifurcated may be employed.
The head 11 includes an elliptical-shaped frame 20 having a longer side in an up-down direction and a string 21 tightly stretched on an inner side of the frame 20, and has the ball hitting surface (face) on the inner side of the frame 20. The frame 20 is obtained by forming a hollow cylindrical body made of, for example, fiber-reinforced plastic in an elliptical shape. The frame 20 is not necessary hollow but may be internally filled with a foam material, or may be made of wood or metal.
The frame 20 has an outer peripheral surface 20a that includes a groove 20b having the center portion in the thickness direction depressed with respect to both sides. The groove 20b is continuously disposed along a circumferential direction of the frame 20. The frame 20 includes an insertion hole 23, and the insertion hole 23 is disposed to pass through the groove 20b of the frame 20 from a bottom side to an inner peripheral surface 20c. A plurality of insertion holes 23 are disposed along the circumferential direction of the frame 20.
On the frame 20, four grommets 25 to 28 are mounted from an outer peripheral side of the frame 20, and the string 21 is tightly stretched to the frame 20 via the grommets 25 to 28. In this embodiment, the grommet 25 on the top end side is disposed from a part in an approximately 10 o'clock direction to a part in an approximately 2 o'clock direction in front view of the frame 20 in
Subsequently, a specific configuration of the grommet 26 on the left side will be described. The grommet 26 includes a strip-shaped portion 31 extending in the circumferential direction of the frame 20 as a predetermined direction, and a plurality of cylindrical portions 32 projecting from a backside surface as one surface of the strip-shaped portion 31. The strip-shaped portion 31 has a front-back width configured to be smaller than a front-back width of the frame 20. A plurality of cylindrical portions 32 are disposed in the extending direction of the strip-shaped portion 31 at predetermined intervals.
The cylindrical portion 32 has a base portion on the strip-shaped portion 31 side, and a distal end portion on the opposite side of the base portion is inserted into the insertion hole 23 (see
On a surface of the bottom surface portion 34 as the other surface of the strip-shaped portion 31, bulge portions 41 and protrusions 42 are disposed. The bulge portion 41 is disposed on a part along the opening 34a and has a shape bulging from the surface of the bottom surface portion 34, and the bulge portion 41 has a top formed in a curved surface shape along an approximate spherical surface. A part where the bulge portion 41 is disposed around the opening 34a is formed so as to be thicker than the other part.
The bulge portions 41 are each continuous with the opening 34a on both sides in the extending direction of the strip-shaped portion 31, and in other words, a pair of bulge portions 41 are disposed for each of a plurality of cylindrical portions 32. Viewing from the surface side of the strip-shaped portion 31, the bulge portion 41 is formed in a shape where a width in the thickness direction (a direction perpendicular to a paper surface of
Three protrusions 42 are disposed between the cylindrical portions 32 adjacent in the extending direction of the strip-shaped portion 31 at predetermined intervals in the extending direction. In other words, on both sides of the three protrusions 42, which are aligned in the extending direction of the strip-shaped portion 31, the bulge portions 41 are disposed at predetermined intervals in the identical direction. The protrusion 42 has a shape projecting from the surface of the bottom surface portion 34 like a rib. The protrusion 42 has a shape extending in a direction (the direction perpendicular to the paper surface of
When the string 21 is tightly stretched to the frame 20 as illustrated in
While the above describes the grommet 26 on the left side, the grommet 27 on the right side illustrated in
Next, a description will be given of effects of resilience performance improvement of the grommet 26 according to the embodiment.
As indicated by a black part in
A grommet 50 according to the comparative structure in
As indicated by a black part in
Generally, a force applied at hitting a ball causes a flexure deformation on the string 21, and a force to recover the flexure deformation influences the resilience performance as a performance in carry of the ball. As illustrated in
In comparison between
As illustrated in
As described above, in the embodiment, the two bulge portions 41 and the three protrusions 42 are brought into close contact with the string to increase portions to be brought into close contact with the string compared with the comparative structure. Therefore, the friction resistance with the string on the surface side of the strip-shaped portion 31 can be much increased in the embodiment. Then, even if the string is pulled to the inner side of the frame 20 (see
When a maximum collapse amount at the bulge portion 41 in the embodiment and a maximum collapse amount around the opening 54a in the comparative structure are measured to be compared, the maximum collapse amount in the comparative structure was about 127 assuming the maximum collapse amount in the embodiment to 100. Accordingly, in the embodiment, load applied to the grommet from the string can be reduced by about 27% compared with the comparative structure.
Next, a description will be given of an experiment performed for evaluating the trajectories in cases of the grommets according to the embodiment. In the experiment, rackets including the grommets of Working Examples 1 to 3 and a racket including the grommet of the above-described comparative structure were prepared. The rackets were in an identical condition except changing the grommet. The grommet of Working Example 1 was configured to have the structure of the above-described embodiment. The grommet of Working Example 2 was configured such that the bulge portion was formed similarly to the above-described embodiment, and the protrusion was scraped off to form the region where the protrusion was formed into a surface smooth to the surface of the bottom surface portion. The grommet of Working Example 3 was configured such that the protrusion was formed similarly to the above-described embodiment, and the bulge portion was scraped off to form the region where the bulge portion was formed into a surface smooth to the surface of the bottom surface portion. The grommet of the comparative structure was configured to have the structure described in
With the rackets of Working Examples 1 to 3 and the comparative structure, a plurality of testers hit the ball multiple times in strokes on a tennis coat. A tennis version TrackMan (ball trajectory measuring instrument) was used to measure ball speeds, spin amounts, and trajectories of the hit balls to calculate average values. Table 1 below indicates relative values of the ball speeds and the spin amounts of Working Examples 1 to 3 assuming the measurement values of the comparative structure to 100.
In Working Example 1, as illustrated in
In Working Example 2, as illustrated in
In Working Example 3, as illustrated in
The present invention is not limited to the above-described embodiment, and various modifications can be made to embody. In the above-described embodiment, the size, the shape, the direction, and similar factor illustrated in the attached drawings are not limited to those, and may be appropriately changed in a range that can provide the effects of the present invention. Moreover, the present invention may be appropriately changed to embody without departing from a scope of the object of the present invention.
For example, the bulge portion 41 and the protrusion 42 may be disposed on the whole regions in the extending directions of the grommets 25 to 28, or may be disposed on a part of the region. For example, as illustrated in
A count of the protrusions 42 formed between the adjacent cylindrical portions 32 may be one or plural such as two, or four or more.
As long as the above-described performances are obtained, forming the protrusion 42 may be omitted as in Working Example 2, or forming the bulge portion 41 may be omitted as in Working Example 3.
The shape of the protrusion 42 may be variously changed as long as the protrusion 42 can contact the string 21, and may be changed to a protruding shape where the planar shape is a circular shape of a square shape instead of the rib shape, or a shape having a distal end in a pillar shape.
The bulge portion 41 also may be changed to have the other shape as long as the performance similar to that of the above-described embodiment is provided.
The shapes of the strip-shaped portion 31 and the cylindrical portion 32 of the grommets 26, 27 are not limited to the illustrated exemplary configurations, and may be changed corresponding to the shape of the frame 20 and similar shape.
The present invention is a grommet mounted to a frame of a racket and a racket to which the grommet is mounted, and provides an effect of enhancing resilience performance of a ball at hitting the ball.
This application is based on Japanese Patent Application No. 2015-249505 filed on Dec. 22, 2015, and the disclosure of which is incorporated herein.
Number | Date | Country | Kind |
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2015-249505 | Dec 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2016/084220 | 11/18/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/110327 | 6/29/2017 | WO | A |
Number | Name | Date | Kind |
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4314699 | Bayer | Feb 1982 | A |
4591165 | Sines | May 1986 | A |
5054779 | Marrello | Oct 1991 | A |
5257781 | Sines | Nov 1993 | A |
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6336877 | Arroyo | Jan 2002 | B1 |
6440015 | Chang | Aug 2002 | B1 |
7217203 | Takeuchi et al. | May 2007 | B2 |
8206248 | Iizawa | Jun 2012 | B2 |
20100331126 | Iizawa | Dec 2010 | A1 |
20130316858 | Yu | Nov 2013 | A1 |
20180369656 | Kawabata | Dec 2018 | A1 |
Number | Date | Country |
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2 851 925 | Sep 2004 | FR |
2 259 256 | Mar 1993 | GB |
2002-282395 | Oct 2002 | JP |
2002-537004 | Nov 2002 | JP |
2005-237877 | Sep 2005 | JP |
2010-104540 | May 2010 | JP |
Entry |
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Official Communication issued in PCT/JP2016/084220, dated Jan. 31, 2017. |
Number | Date | Country | |
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20180369656 A1 | Dec 2018 | US |