1. Field of the Invention
The present invention relates to a ferrule which is used for a golf club and more particularly to a ferrule in which a groove is provided on an outer circumferential surface of a portion thereof which is inserted into a hosel hole. Additionally, the invention relates to a golf club which employs this ferrule.
2. Description of the Related Art
In a golf club in which a shaft is inserted into a hosel hole in a head of the golf club and is then fixed in place therein with an adhesive, a ferrule is fitted on the shaft, and the ferrule is disposed on an upper end face of a hosel portion in abutment therewith. An inserted portion adapted to enter an upper end portion of the hosel hole is provided on this ferrule (Japanese Utility Model Registration No. 2515800, JP-A-2000-42146 and JP-A-8-117364). Stress is generated near the upper end portion of the hosel hole of the shaft when a golf ball is hit and this stress is mitigated by providing the ferrule. In addition, the aesthetic appearance of the golf club is also improved by providing the ferrule.
This ferrule is fixed in place relative to the hosel hole with the adhesive. Japanese Utility Model Registration No. 2515800 and JP-A-2000-42146 describe a technique in which a groove is provided on an outer circumferential surface of the inserted portion so that part of the adhesive interposed between an inner circumferential surface of the hosel hole and the ferrule is accommodated in the groove, whereby the bonding strength of the ferrule to the hosel hole is enhanced.
When mounting the shaft in the hosel hole in the head of the golf club, the ferrule is fitted on the shaft in advance, and the adhesive is applied to a distal end portion of the shaft. Then, the shaft is inserted into the hosel hole, and the inserted portion of the ferrule is also inserted into the hosel hole. The surplus of the adhesive applied to the shaft enters a gap between the outer circumferential surface of the inserted portion of the ferrule and the inner circumferential surface of the hosel hole. When the groove is provided in the inserted portion, the adhesive is accommodated in the groove, whereby the bonding strength of the ferrule to the hose hole is enhanced.
An object of the invention is to provided a ferrule which enables the smooth flow of an adhesive that is applied to a shaft into between an outer circumferential surface of an inserted portion of the ferrule and an inner circumferential surface of a hosel hole so as to facilitate the mounting work of the ferrule and a golf club which employs this ferrule.
According to an aspect of the invention, there is provided a ferrule including an upper body which projects from an upper end face of a hosel portion, an inserted portion which is provided to project downwards from the upper body to be inserted into an interior of a hosel hole and a groove which is provided circumferentially on an outer circumferential surface of the inserted portion, wherein a lower end portion of the inserted portion has a diameter which is smaller than that of an upper side of the inserted portion than the groove.
According to another aspect of the invention, a lower end side of the inserted portion than the groove has an isodiametric cylindrical shape.
According to a further aspect of the invention, at least the lower end portion of the inserted portion is tapered so as to reduce the diameter as it extends towards a lower end.
In a golf club of the invention, a shaft is mounted in a hosel hole in a head, and the ferrule of the invention is mounted thereon.
The hosel hole is preferably formed into a small diameter hole portion on a deeper side and into a large diameter hole portion on an entrance side, and a step portion is preferably provided between the small diameter hole portion and the large diameter hole portion, the step portion being preferably shaped so as to expand diametrically as it extends towards the entrance side.
In the ferrule of the invention, the lower end portion of the inserted portion has the diameter which is smaller than that of the upper side of the inserted portion than the groove, and therefore, when inserting the shaft into the hosel hole, the surplus of the adhesive easily flows into between the outer circumferential surface of the lower end portion of the inserted portion and the inner circumferential surface of the hosel hole. Because of this, the mounting work of the ferrule becomes easy. In addition, the adhesive is allowed to flow uniformly between the outer circumferential surface of the inserted portion and the inner circumferential surface of the hosel hole, whereby a bonding strength distribution in a circumferential direction of the inserted portion becomes uniform. Additionally, the groove is provided on the inserted portion, and therefore, the boding strength between the ferrule and the inner circumferential surface of the hosel hole is increased.
In the golf club of the invention, the step portion between the large diameter hole portion and the small diameter hole portion of the hosel hole is shaped so as to expand diametrically as it extends towards the entrance side (the upper side), whereby the surplus of the adhesive is made to flow upwards easily.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawing which is given by way of illustration only, and thus is not limitative of the present invention and wherein:
Hereinafter, a first embodiment will be described by reference to
A shaft 3 is inserted into a hose hole 2 in a hosel portion 1 of a head of a golf club and is bonded in place therein with an adhesive 4. A ferrule 10, which is made of a cellulose nitrate plastic, is fitted on the shaft 3, and this ferrule 10 is also bonded in the hosel portion 1 with the adhesive 4. The hosel hole 2 includes a small diameter hole portion 2a situated on a deeper side, a large diameter hole portion 2b situated on an entrance side and a step portion 2c situated between both the hole portions. The step portion 2c has an inner circumferential edge having an arc-like shape in section and is expanded diametrically as it extends upwards.
As shown in
In the outer circumferential surface of the inserted portion 13, an upper side than the groove 14 is made into an upper outer circumferential surface 13a which connects to an inner circumferential end of the diametrically reduced surface 12, and a lower side than the groove 14 is made into a lower outer circumferential surface 13b. Both the upper outer circumferential surface 13a and the lower outer circumferential surface 13b have a cylindrical shape. A diameter d of the lower outer circumferential surface 13b is smaller substantially by 0.1 to 0.5 mm and particularly 0.2 to 0.3 mm than a diameter D of the upper outer circumferential surface 13a.
To mount the shaft 3 and the ferrule 10 in the hosel portion 1, firstly, the ferrule 10 is fitted on the shaft 3, and thereafter, the adhesive 4 is applied to a distal end portion of the shaft 3, and the shaft 3 is then inserted into the hosel hole 2. When the shaft 3 is inserted into the small diameter hole portion 2a of the hosel hole 2, the surplus of the adhesive 4 moves towards the large diameter hole portion 2b. As the inserted portion 13 of the ferrule 10 comes to be inserted into the large diameter hole portion 2b, the surplus of the adhesive 4 flows into between the outer circumferential surface of the inserted portion 13 and the large diameter hole portion 2b, and part of the adhesive surplus enters the groove 14. The inserted portion 13 is inserted into the hosel hole 2 until the diametrically reduced surface 12 of the ferrule 10 is brought into abutment with an upper end face of the hosel portion 1. There may be such a situation that part of the surplus of the adhesive enters between the diametrically reduced surface 12 and the upper end face of the hosel portion 1. Thereafter, the adhesive is set, so that the shaft 3 and the ferrule 10 are fixedly bonded to the hosel portion 1.
Thereafter, an outer circumferential surface of the ferrule 10 is ground, so that the outer circumferential surface of the ferrule 10 connects to an outer circumferential surface of the hosel portion 1. Additionally, a solvent is applied to the outer circumferential surface of the ferrule 10 as required so as to make the outer circumferential surface of the ferrule 10 smooth.
In this ferrule 10, the lower outer circumferential surface 13b is smaller in diameter than the upper outer circumferential surface 13a, and a gap between the lower outer circumferential surface 13b and an inner circumferential surface of the large diameter hole portion 2b of the hosel hole 2 is relatively wide. Therefore, the adhesive 4 which rises from the small diameter hole portion 2a side is allowed to flow smoothly between the lower outer circumferential surface 13b and the inner circumferential surface of the large diameter hole portion 2b. In particular, in this embodiment, an inner circumferential edge of the step portion 2c has an arc-like shape in section, and therefore, the adhesive 4 which rises from the small diameter hole portion 2a side is allowed to pass smoothly between the step portion 2c and an outer circumferential edge of a lower end of the inserted portion 13. Because of this, the mounting work of the shaft 3 and the ferrule 10 can be implemented well.
In addition, the surplus of the adhesive which rises from the small diameter hole portion 2a side is allowed to flow uniformly in a circumferential direction between the inserted portion 13 and the inner circumferential surface of the large diameter hole portion 2b of the inserted portion 13. Therefore, the bonding strength becomes uniform in the circumferential direction. Additionally, a sufficient amount of adhesive 4 is accommodated in the groove 14, and therefore, the bonding strength between the inserted portion 13 and the hosel portion 1 also becomes high.
Ferrules 10A, 10B according to second and third embodiments will be described by reference to
In the ferrule 10A shown in
In the ferrule 10B shown in
Any of the embodiments constitutes an example of the invention, and the invention may be given configurations other than those illustrated in the accompanying drawings. For example, in the ferrule 10A in
Two or more grooves 14 may be provided in this invention. In this invention, part of the ferrule may be made of metal.
Number | Date | Country | Kind |
---|---|---|---|
2011-262364 | Nov 2011 | JP | national |