JP2012011175A - Artificial vane for shuttlecock, and shuttlecock - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an artificial vane for a shuttlecock, an artificial vane that excels in durability and stable supply as an artificial vane constituting a shuttlecock including a base and that in addition materializes suppleness (resiliency) which is hard to obtain if the shaft part is formed with synthetic resin.SOLUTION: The artificial vane 2 for a shuttlecock includes: a shaft part 21 that is directly fixed to the base 3 in a state in which an insertion part 211 formed in the lower end region is inserted into the base 3; and a vane part 22 that is inseparably attached with an adhesive processing to an adhesion face 212 which is formed on the upper end region of the shaft part 21. The shaft part 21 is formed with a hollow tubular member 21a formed of synthetic resin.

Description

  The present invention relates to a shuttlecock used in badminton, and more particularly to a shuttlecock blade.

  Badminton is a competition in which a competitor hits a shuttlecock with a racket on a cork base that is roughly hemispherical with adhesive, etc., and can be used by anyone regardless of age or gender. It is widely known as recreation that can be done relatively easily. A shuttlecock used for badminton is generally a waterfowl feather such as a goose (hereinafter sometimes referred to as "natural feather" or "natural feather") fixed to the upper surface of the base opposite to the bottom. Is.

  However, the shuttlecock using natural blades is not excellent in durability, and there is a problem that a portion (shaft portion) directly fixed to the base of the blades is easily broken. In addition, shuttlecocks using natural feathers will incur higher prices if a stable supply of natural feathers cannot be maintained due to changes in aquaculture production due to diseases such as avian influenza and climate effects. There was also one side.

  In order to solve such a problem, various types of shuttlecocks have been conceived in which artificial feathers imitating natural feathers are formed of synthetic resin or the like and fixed to a base (for example, see Patent Document 1 below).

JP 2008-206970 A

  As in the invention disclosed in Patent Document 1 described above, the main object of the present invention is to provide an artificial feather for a shuttlecock excellent in durability, and further, supply stability can be expected. Artificial feathers for shuttlecocks that can solve problems that are likely to occur if they are blades, specifically, the problem that the portion (shaft) that is directly fixed to the base of the blades is excessively hard, and such shuttlecocks It is in providing the shuttlecock provided with the artificial feather for crafts.

  That is, the present invention relates to an artificial feather that is applied to a shuttlecock of a badminton and is attached to a base, and a shaft portion that is directly fixed to the base in a state where the lower end side region is inserted into the base, and an upper end side region of the shaft portion And a hollow tubular member formed from a synthetic resin is used as the shaft portion.

  In this way, if it is an artificial feather for shuttlecocks that is made of synthetic resin, the shaft part that is directly fixed to the base is superior in durability compared to natural feathers and stable supply by mass production is also possible is there. Moreover, since the artificial feather for a shuttlecock of the present invention uses a hollow tubular member as the shaft portion, the shaft portion is excessive as compared with the case where a solid member with a clogged inside is applied as the shaft portion. Can be avoided, and can achieve flexibility (elasticity) and lightness similar to or substantially the same as natural feathers.

  In particular, in the present invention, an artificial feather for a shuttlecock in which the lower end side region of the shaft portion is cut obliquely at a predetermined angle with respect to the extending direction (shaft center direction) of the shaft portion can also be applied. With such an artificial feather for a shuttlecock, it is possible to determine the insertion angle of the shaft portion with respect to the table relatively easily by appropriately adjusting the angle at which the lower end side region of the shaft portion is cut. For example, flight characteristics such as shuttlecock flight distance and speed are likely to change due to atmospheric pressure (high in summer and low in winter) due to seasonal differences, but by changing the insertion angle of the shaft, The shuttlecock can be manufactured by easily adjusting the spread (diameter) of the skirt portion, and a shuttlecock having flight characteristics suitable for the season can be obtained.

  Also, when the shaft part is a cylindrical tubular member, it is troublesome to attach the blades to the outer peripheral surface of this shaft part, and the entire part of the blades attached to the shaft part is rounded, so that the attachment is effective. There is a problem that it is difficult to obtain strength (adhesive strength). Therefore, in the artificial feather for a shuttlecock according to the present invention, a flat surface that is cut obliquely at a predetermined angle with respect to the extending direction of the shaft portion (shaft center direction) is formed in the upper end side region of the shaft portion. All or part of the wings can be bonded to the surface inseparably. Thereby, the whole part or at least part of the blade attached to the shaft part becomes flat, an effective attachment strength can be obtained, and the attachment work (adhesion work) can be facilitated. Here, the “adhesion” process includes a thermal welding process, an ultrasonic welding process, and an impregnation process using an impregnating agent (impregnation liquid) in addition to a process using an adhesive.

  As a suitable specific example of the wing | blade part which comprises the artificial feather for shuttlecocks of this invention, what apply | coated polyurethane or an acrylic resin to the sheet-like member woven with a synthetic fiber or a natural fiber can be mentioned. With such a wing portion, good rigidity and elasticity (elastic return force) can be obtained.

  Furthermore, in the artificial feather for a shuttlecock according to the present invention, one or a plurality of cuts extending from the outer edge portion toward the shaft portion can be formed in the wing portion. When the shuttlecock is struck with a racket, a large wind pressure is instantaneously applied to the blades, but the wind can be released through a cut formed in the blades. This prevents problems that may occur if the wind at the time of hitting the shuttlecock by the racket cannot be properly escaped, that is, the flight becomes unstable after hitting with the racket, resulting in unnatural behavior. -It can be suppressed. Note that the number and length of cuts, or the angle of cut (cut angle, cut direction) with respect to the axial direction of the shaft portion can be set to an appropriate value.

  The shuttlecock according to the present invention includes a base having a semispherical bottom and a plurality of artificial feathers for the shuttlecock having the above-described configuration attached to a flat upper surface on the opposite side of the bottom of the base. It is characterized by being.

  If it is such a shuttlecock, the various effect based on the artificial feather for shuttlecocks mentioned above will be exhibited, and it will become a shuttlecock excellent in durability and stable supply nature.

  In addition, the shuttlecock of the present invention includes a base having a semispherical bottom, a plurality of artificial feathers for the shuttlecock described above, and a plurality of natural feathers for the shuttlecock, and is on the opposite side of the bottom of the base. A plurality of artificial feathers for shuttlecocks and a plurality of natural feathers for shuttlecocks are attached to a flat upper surface.

  In this way, by adopting the novel concept of mixing the artificial feathers for shuttlecocks and natural feathers for shuttlecocks mentioned above, the durability of the waterfowl (geese, etc.) aquaculture industry is considered while improving durability. A shuttlecock can be provided. In particular, if the shuttlecock artificial feathers and the shuttlecock natural feathers are alternately arranged, the balance of the shuttlecock can be easily improved.

  According to the present invention, by applying a hollow tubular member formed from a synthetic resin as the shaft portion, it is possible to improve the strength of the shaft portion directly fixed to the base among the blades, and thus improve the durability of the entire artificial feather. Thus, it is possible to provide an artificial feather for a shuttlecock capable of obtaining a stable supply and elasticity close to that of an artificial feather, and a shuttlecock.

1 is an overall schematic diagram of a shuttlecock according to an embodiment of the present invention. The whole figure of the artificial feather for shuttlecocks concerning the embodiment. FIG. 3 is a schematic cross-sectional view taken along the line aa in FIG. 2. The figure which shows typically the process in which the axial part in the embodiment is formed. The cross-sectional schematic diagram of the state which fixed the artificial feather for shuttlecocks in the embodiment to the stand. The whole figure of one modification of the artificial feather for shuttlecocks concerning the embodiment.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the shuttlecock artificial feather 2 according to the present embodiment (hereinafter sometimes simply referred to as “artificial feather 2”) has a bottom part of a base 3 having a semispherical shape. Is attached to a flat upper surface on the opposite side, and constitutes the shuttlecock 1 together with the base 3.

  As shown in FIGS. 1 and 2, the artificial feather 2 includes a shaft portion 21 that is directly fixed to the base 3 with the lower end side region inserted into the base 3, and a wing portion that is attached to the upper end side region of the shaft portion 21. 22.

  As shown in FIGS. 2 and 3, the shaft portion 21 is formed of a hollow tubular member 21a formed of a synthetic resin, and the lower end side region and the upper end side region are inclined at an arbitrary angle with respect to the axial direction 2A. Excising. In FIG. 2, for the sake of convenience of explanation, a pattern is attached to the excised part. The cut portion in the lower end side region functions as the insertion portion 211 when the shaft portion 21 is inserted into the table 3, and the cut portion in the upper end side region is used when the shaft portion 21 and the wing portion 22 are bonded and fixed. It functions as an adhesive surface 212 (corresponding to the “flat surface” of the present invention). In the present embodiment, the ratio of the bonding surface 212 occupying the entire shaft portion 21 (the total length along the axial direction 2 </ b> A of the shaft portion 21) is set larger than that of the insertion portion 211. Further, in the present embodiment, as shown in FIG. 4, by cutting the central portion of one cylindrical member 21P at a predetermined angle, two shaft portions 21 each having an adhesive surface 212 can be obtained simultaneously. ing. FIG. 4 is a schematic diagram of the cylindrical member 21P at the time before the cutting process, and the cut portion is indicated by a one-dot chain line. When the two shaft portions 21 are obtained by cutting the cylindrical member 21P, the cut surface may be the adhesive surface 212 or the insertion portion 211 as described above.

  The wing portion 22 is obtained by applying (coating) polyurethane or acrylic resin to a sheet-like member woven with synthetic fibers or natural fibers, for example. The entire central portion in the width direction of the wing portion 22 is attached to the shaft portion 21 with, for example, an adhesive. In the present embodiment, the wing part 22 is attached to the shaft part 21 with an adhesive in a state in which most of the region of the wing part 22 that overlaps the shaft part 21 is in close contact with the bonding surface 212 (flat surface) of the shaft part 21. Are fixed. In addition, the adhesion between the shaft portion 21 and the wing portion 22 may use a heat welding process, an ultrasonic welding process, or an impregnation process in addition to a process using an adhesive.

  In this way, the artificial feather 2 according to the present embodiment in which the shaft portion 21 and the wing portion 22 are integrated so as not to be separated, the insertion portion 211 of the shaft portion 21 is inserted into the base 3 and bonded as shown in FIG. It can be fixed to the table 3 by the agent.

  As shown in FIG. 1 and FIG. 5, the base 3 covers a base body 31 made of cork having an upper surface opposite to the hemispherical bottom formed on a flat surface, and the base body 31 other than the flat surface. It is a well-known one provided with a covering member 32.

  The shuttlecock 1 has a predetermined number of artificial feathers 2 (16 in accordance with the provisions of the Japan Badminton Association) attached to such a base 3, and is formed in a circular shape formed by lower end portions of the artificial feathers 2 (The circular shape formed on the surface of the base 3 where the base body 31 is exposed) is larger than the circular shape formed by the upper ends (the circular shape of the skirt portion formed by the wings 22). The lower end side region of the shaft portion 21 of each artificial feather 2 is inserted into the table 3 at a predetermined angle. At this time, the insertion portion 211 formed in the lower end side region of the shaft portion 21 can easily and smoothly perform the operation of inserting the shaft portion 21 into the table 3 at an arbitrary angle. Moreover, in this embodiment, the predetermined parts (for example, the part which does not overlap with the wing | blade part 22) of the axial part 21 among each artificial feather | wing 2 attached to the stand 3 are connected by the 1 or several string-like member 4 ( (See FIG. 1). In addition to the number of artificial feathers 2, the shuttlecock 1 configured in this way has the length, size, and weight of each part corresponding to the competition rules of the Japan Badminton Association and other competition groups. It will be approved as an official shuttlecock.

  The shuttlecock 1 according to the present embodiment having such a configuration includes the artificial feather 2 in which the shaft portion 21 directly fixed to the base 3 is formed of a synthetic resin. Therefore, the shuttlecock 1 is more durable than the natural feather. And stable supply is possible. Moreover, since the shuttlecock artificial feather 2 of the present embodiment uses the hollow tubular member 21a as the shaft portion 21, compared to the case where the shaft portion is configured by a solid member clogged inside, The shaft portion 21 can be prevented from becoming excessively hard, and the flexibility (elasticity), lightness, and flight characteristics similar to or substantially the same as those of the natural blade can be obtained.

  Further, the shuttlecock artificial feather 2 according to the present embodiment forms an insertion portion 211 in which the lower end side region of the shaft portion 21 is obliquely cut at a predetermined angle with respect to the axial direction 2A of the shaft portion 21. Therefore, by appropriately adjusting the angle of the insertion portion 211 with respect to the axial direction 2A of the shaft portion 21, the insertion angle of the shaft portion 21 with respect to the table 3 can be determined relatively easily. A shuttlecock having flight characteristics according to the atmospheric pressure of (use environment) can be manufactured.

  Further, the artificial feather 2 for shuttlecock according to the present embodiment forms a flat adhesive surface 212 that is cut obliquely at a predetermined angle with respect to the axial direction 2A of the shaft portion 21 in the upper end side region of the shaft portion 21. Then, all or part of the region overlapping the shaft portion 21 occupying the wing portion 22 can be bonded to the bonding surface 212 so that the shaft portion 21 and the wing portion 22 can be integrated without being separated. Thereby, most of the area | region attached to the axial part 21 among the wing | blade part 22 becomes flat, and it can aim at the improvement of attachment work (adhesion work) and improvement of attachment strength.

  In particular, the artificial feather 2 for a shuttlecock according to the present embodiment includes a wing portion 22 in which polyurethane or acrylic resin is applied to a sheet-like member woven with synthetic fibers or natural fibers, and thus has excellent rigidity and elasticity. (Elastic return force) can be obtained.

  In addition, this invention is not limited to embodiment mentioned above. For example, as shown in FIG. 6, a shuttlecock artificial feather 2 in which a cut 221 extending from the outer edge portion toward the shaft portion 21 is formed in the wing portion 22 can also be applied. FIG. 6 illustrates an artificial feather 2 in which a plurality of cuts 221 extending from both side edge portions toward the shaft portion 21 in the outer edge portion of the wing portion 22 are formed at the target or substantially symmetrical positions with the shaft portion 21 as a boundary. ing. Such an incision 221 can be easily formed by a cutting process (such as a press cutting process) using an appropriate cutting tool for the wing part 22 of the artificial feather 2 exemplified in the above-described embodiment. 6 illustrates the cut 221 having an angle of approximately 90 degrees with respect to the axial direction 2A of the shaft portion 21, the cut angle can be changed as appropriate. Thus, the shuttlecock 1 can be configured by attaching a predetermined number of artificial feathers 2 having cuts 221 formed in the wings 22 to the base 3.

  When such a shuttlecock 1 is hit with a racket, a large wind pressure acts instantaneously on each blade 2, but this wind can be released from each notch 221. As a result, it is possible to prevent problems that may occur when the wind at the time of hitting the shuttlecock by the racket cannot be properly escaped, that is, the flight becomes unstable after hitting with the racket, resulting in unnatural behavior. -It can be suppressed. When the wind is released, the area near the notch 221 of the wing portion 22 is temporarily opened and deformed, but the wing portion 22 returns to its original shape due to its own elasticity. In addition, the length of the cut 221 can be changed as appropriate, but in order to give the wings 22 characteristics that can return to the original shape after the area near the cut 221 is temporarily deformed by receiving wind pressure, It is preferably about several millimeters (for example, 5 mm). Moreover, the number of cuts 221 per artificial feather 2 and the formation location can be changed as appropriate. Further, instead of the straight cut 221 or in addition to the straight cut 221, a curved cut or a meander cut may be employed.

  In addition, the base is provided with a base having a semi-spherical shape, an artificial feather for shuttlecock having the above-described configuration, and a feather for waterfowl such as a goose (natural feather for shuttlecock), which is on the opposite side of the bottom of the base. It is also possible to use a shuttlecock in which artificial shuttlecocks for shuttlecocks and natural feathers for shuttlecocks are alternately mounted on a flat upper surface. With such a shuttlecock, the above-described shuttlecock artificial feathers and shuttlecock natural feathers are mixed to improve durability and to take into account the aquaculture industry of waterfowls (geese, etc.) Can provide cock

  In addition, the specific configuration of each part is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Shuttle cock 2 ... Artificial feather 21 ... Shaft part 211 ... Insertion part 212 ... Flat surface (adhesion surface)
21a ... Tubular member 22 ... Wings 221 ... Cut 3 ... Stand

Claims (7)

An artificial feather that is applied to the shuttlecock and attached to the base,
A shaft portion directly fixed to the table in a state where the lower end side region is inserted into the table,
And a wing portion attached to the upper end side region of the shaft portion,
The shuttlecock artificial feather, wherein the shaft portion is a hollow synthetic resin tubular member. The artificial feather for a shuttlecock according to claim 1, wherein a lower end side region of the shaft portion is cut obliquely at a predetermined angle with respect to the extending direction of the shaft portion. 3. The flat surface cut obliquely at a predetermined angle with respect to the extending direction of the shaft portion is formed in the upper end side region of the shaft portion, and the wing portion is bonded to the flat surface. An artificial feather for a shuttlecock according to any one of the above. The artificial feather for a shuttlecock according to any one of claims 1 to 3, wherein the wing portion is obtained by applying polyurethane or acrylic resin to a sheet-like member woven with synthetic fibers or natural fibers. The shuttlecock artificial feather according to any one of claims 1 to 4, wherein one or a plurality of cuts extending from an outer edge portion toward the shaft portion are formed in the wing portion. A base with a semi-spherical bottom,
A shuttlecock comprising a plurality of artificial feathers for a shuttlecock according to any one of claims 1 to 5, attached to a flat upper surface of the table. A base with a semi-spherical bottom,
A plurality of shuttlecock artificial feathers according to any one of claims 1 to 5,
With multiple shuttlecock natural feathers,
The shuttlecock, wherein the plurality of artificial feathers for shuttlecocks and the plurality of natural feathers for shuttlecocks are attached to a flat upper surface of the table.

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