子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | AN ADJUSTABLE CONNECTOR | EP08830229.4 | 2008-09-10 | EP2229221A1 | 2010-09-22 | MOORE, Simon, Garry |
| According to one aspect of the present invention there is provided an adjustable connector including at least two parts, each having a main body with a bore having a longitudinal axis therein, wherein an external surface of the main body of a first part is configured to bear against an internal surface of the bore of a second part when the first part is at least partially inserted into the bore of the second part to form a connection, characterized in that the positioning of the bores with respect to the main bodies is such that when the parts are connected to each other, rotation of one part with respect to the other changes the inclination of the longitudinal axes of the bores with respect to one another. | ||||||
| 122 | GOLF CLUB | EP06808349.2 | 2006-10-25 | EP2079532A1 | 2009-07-22 | Mayes, Brian Alzano |
| A composition contains an acrylic resin and an impact modifier containing at least one dimer fatty acid and/or dimer fatty diol. The composition is suitable for use to form a sheet or as an adhesive, particularly as a pressure sensitive adhesive, anaerobic adhesive and a reactive hot-melt adhesive. | ||||||
| 123 | COUNTERWEIGHTED GOLF CLUB | EP04701474 | 2004-01-12 | EP1592483A4 | 2008-04-09 | BLOOM JAMES PIERCE |
| A conventional length golf club with a grip including a heavy counterweight, the mass of which is sufficient to cause the center of gravity of the whole golf club to be located within the boundaries of the grip. The counterweight may be an elongated member with a bore through its interior, and in order to achieve the object of placing the center of gravity within the boundaries of the grip, it must have a substantially larger cross-section than the standard-diameter shaft of a golf club. The grip may include a lower support section made of a substantially less massive material than the counterweight. In a preferred embodiment, the grip has an elliptical cross section with the major axis of the ellipse perpendicular to the face of the club head. | ||||||
| 124 | Golf club | EP06251416.1 | 2006-03-16 | EP1782864A1 | 2007-05-09 | Ban, Wataru c/o Bridgestone Sport Co., Ltd. |
This invention provides a wood type golf club (A) including a shaft (1), a grip (2) at one end of the shaft, and a head (3) at the other end of the shaft, characterized in that a mass m (g) of the golf club and a length L (cm) from a grip side end of the golf club to a barycentric position of the golf club satisfy m x L ≦ 2.56 x 104 (g · cm) and m x L2 ≧ 2.300 x 106 (g · cm2).
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| 125 | ARTICLES OF MANUFACTURE COMPRISING STIFF AND RESILIENT ETHYLENE COPOLYMER COMPOSITIONS | EP04812980.3 | 2004-12-03 | EP1689815A1 | 2006-08-16 | CHEN, John, Chu |
| Disclosed are articles of manufacture comprising ionomeric copolymers blended with organic acids or salts thereof that have a unique combination of high stiffness and resilience. Articles of manufacture according the invention include, without limitation, footwear structural components (e.g., heel counters, toe puffs, and soles), golf club components, and industrial applications (e.g., materials such as caulking materials, sealants, modifiers for cement and asphalt, coatings, packaging films, molded parts, and resilient foams for sporting goods). | ||||||
| 126 | RACKET ZUR BEAUFSCHLAGUNG VON TENNISBÄLLEN UND ÄHNLICHEN SPIELKÖRPERN | EP03701492.5 | 2003-01-07 | EP1463566B1 | 2006-05-24 | Ignatius, Georg |
| The invention relates to racket for hitting tennis balls and similar game bodies. This racket comprises a manipulating part (BT) and a striking part (PT) which comes into direct dynamic active contact with the respective game body. In order to create a racket structure that enables an improved adaptation of the vibrational behavior to the conditions of the events of the game and to the requirements as well as specific features of the player, a multitude of displayed three-dimensional areas and/or two-dimensional areas and/or linear areas (R, F, L) are provided which differ from at least a portion of their respective surroundings by at least one vibration-relevant, in particular, resonance-relevant material parameters and/or shape parameters or dimensional parameters, particularly by different mass, mass density, deformation rigidity and/or damping, and which form the at least one series extending over at least a portion of the racket and corresponding to the at least one ordered sequence. | ||||||
| 127 | COUNTERWEIGHTED GOLF CLUB | EP04701474.1 | 2004-01-12 | EP1592483A2 | 2005-11-09 | Bloom, James Pierce |
| A conventional length golf club with a grip including a heavy counterweight, the mass of which is sufficient to cause the center of gravity of the whole golf club to be located within the boundaries of the grip. The counterweight may be an elongated member with a bore through its interior, and in order to achieve the object of placing the center of gravity within the boundaries of the grip, it must have a substantially larger cross-section than the standard-diameter shaft of a golf club. The grip may include a lower support section made of a substantially less massive material than the counterweight. In a preferred embodiment, the grip has an elliptical cross section with the major axis of the ellipse perpendicular to the face of the club head. | ||||||
| 128 | MANUFACTURING SYSTEM AND METHOD | EP00955828 | 2000-08-23 | EP1230614A4 | 2005-09-21 | ST VILLE JAMES A |
| A method for manufacturing an object having a potential {x} that is generated in response to a field {f} applied thereto. A computerized mathematical model (801) of the object is generated by discretizing a geometric model of the object into a plurality of finite elements (802) and specifying values for the field {f} and potential {x} relative to the finite elements (802). The material properties (804) of the finite elements (802) are specified to have a particular symmetry and a material property (804) matrix [k] is calculated based on the relationship {f}=[k]{x} and the specified symmetry. Material property (804) coefficients are extracted from the material property (804) matrix [k] for each finite element (802) in the computerized mathematical model (801) and the extracted material property (804) coefficients are compared to material property (804) coefficients for known materials to match the extracted material property (804) coefficients to the material property (804) coefficients for known materials. Manufacturing parameters (805) for controlling manufacturing equipment are determined based on the matched material property (804) coefficients and the manufacturing equipment is controlled in accordance with the determined manufacturing parameters (805) to thereby manufacture the object. | ||||||
| 129 | VERFAHREN ZUM HERSTELLEN VON ZUR JEWEILIGEN K RPERGR SS E VON GOLFSPIELERN INDIVIDUELL PASSENDEN GOLFSCHL GERN | EP02719932.2 | 2002-02-26 | EP1513592A1 | 2005-03-16 | WOHLDORF, Peter, A., W. |
| The invention relates to a method for producing golf clubs that are individually adapted to the respective height of golf players. According to the invention, a test person firstly executes, with a test club whose distance from the floor (H) corresponds to the distance of the wrist of the upright-standing test person from the floor, one or more test strokes on a specially prepared flat base. Afterwards, the line of contact of the bottom (5) of the test club head (1) with the base is determined, and the distance of the line of contact from the club head central plane (0) is measured. The length (L) of the shaft (2) is subsequently adapted according to this measured distance. The invention also relates to a template and a chart. | ||||||
| 130 | RACKET ZUR BEAUFSCHLAGUNG VON TENNISBÄLLEN UND ÄHNLICHEN SPIELKÖRPERN | EP03701492.5 | 2003-01-07 | EP1463566A2 | 2004-10-06 | Ignatius, Georg |
| The invention relates to racket for hitting tennis balls and similar game bodies. This racket comprises a manipulating part (BT) and a striking part (PT) which comes into direct dynamic active contact with the respective game body. In order to create a racket structure that enables an improved adaptation of the vibrational behavior to the conditions of the events of the game and to the requirements as well as specific features of the player, a multitude of displayed three-dimensional areas and/or two-dimensional areas and/or linear areas (R, F, L) are provided which differ from at least a portion of their respective surroundings by at least one vibration-relevant, in particular, resonance-relevant material parameters and/or shape parameters or dimensional parameters, particularly by different mass, mass density, deformation rigidity and/or damping, and which form the at least one series extending over at least a portion of the racket and corresponding to the at least one ordered sequence. | ||||||
| 131 | ALL-TERRAIN GOLFING CLUB, SYSTEM AND METHOD | EP02711678.9 | 2002-01-21 | EP1355702A2 | 2003-10-29 | The designation of the inventor has not yet been filed |
| The present invention is directed to an all-terrain golfing club, system and method comprising a club comprised of a shaft having a gripping end and a head end. A head is affixed to the head end of the shaft and is comprised of a racquet design. A ball is provided of sufficient size to facilitate being hit with the club, the ball being made from a material that when struck by the club is conducive to high acceleration off of the club head in a manner that provides for maximum travelling distance and accuracy. In a prefered aspect of the invention, the gripping end of the shaft is fitted with a grip of sandard design in the golf industry and adapted a non-slip and comfortable swing. | ||||||
| 132 | METHOD AND APPARATUS FOR MEASURING AND ORIENTING GOLF CLUB SHAFT | EP01994388.5 | 2001-11-09 | EP1339465A1 | 2003-09-03 | WEISS, Richard, M.; BUTLER, Joseph, H.; TWIGG, Michael, J.; VOWELL, Franklin, S.; PALMER, Larry, R. |
| The preferred orientation, or planar oscillation plane, of a golf club shaft is located by measuring the oscillation of the shaft when an impulse is applied. Preferably, the out-of-plane oscillation is measured at a large number of angular positions about the shaft axis, and the principal planar oscillation plane is identified by that pair of opposed angular positions in which the out-of-plane oscillation is smallest. The location of the preferred orientation may be marked on the shaft and used to assemble a golf club with the planar oscillation plane in a predetermined orientation. The straightness of the shaft can also be determined by deriving its spring constant from its oscillation frequency and then measuring the restoring force when the shaft is deflected by the same nominal amount at different angular positions; differences in restoring force can be attributed to differences in actual deflection distance resulting from lack of straightness. | ||||||
| 133 | A GOLF CLUB | EP97924124.7 | 1997-05-29 | EP0910442B1 | 2002-09-18 | WILSON, Geoffrey |
| PCT No. PCT/GB97/01456 Sec. 371 Date Nov. 25, 1998 Sec. 102(e) Date Nov. 25, 1998 PCT Filed May 29, 1997 PCT Pub. No. WO97/45172 PCT Pub. Date Dec. 4, 1997A golf club having a shaft (3) and a club head (2) which is connected to a shank portion (4) of the shaft at its heel end (31) so that it can be rotated around the axis of the shank portion. The configuration of the shank portion is such that the shaft axis and the shank axis intersect at about the bottom of the heel end of the club head so that rotating the club head around the shank axis causes the angle between the club face (30) and the shaft (3) to change. | ||||||
| 134 | Canne de swin | EP01810845.6 | 2001-09-03 | EP1203601A2 | 2002-05-08 | Milleret, Christian |
Cette canne de swin comporte un manche et une tête de frappe constituée par un corps inscrit dans un pentaèdre présentant, des arrêtes rectilignes et des arrêtes curvilignes. Le corps comporte au moins une face plane (4) destinée à venir en contact avec le sol et présente un plan de symétrie (S-S) perpendiculaire à ladite face et contenant le manche (11) définissant deux faces symétriques (5, 5'). Les faces symétriques sont constituées par des surfaces conoïdes séparées par une arrête curviligne (6), de manière qu'un joueur droitier ou gaucher puisse réaliser la première frappe, grand coup, avec l'une des faces et la seconde frappe, coup d'approche, avec la face symétrique ceci en faisant tourner la tête avec le manche de 180°. la troisième frappe, coup roulé. étant réalisée avec une face perpendiculaire audites faces symétriques. |
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| 135 | SYSTEM FOR OPTIMIZATION OF GOLF CLUBS | EP00926248.6 | 2000-04-21 | EP1177020A2 | 2002-02-06 | SOSIN, Howard, B. |
| Methods of optimizing and matching golf clubs, and the clubs so matched. Clubs are selected to produce a desired relationship between hand speed at impact (tempo), and centripetal force on the hands at impact (perceived force). Clubs may also be selected to minimize and equate (or reduce variation in) the radius of gyration, as measured about a center point which is individually determined for each golfer. | ||||||
| 136 | GOLF CLUB HEAD, GOLF CLUB, AND GOLF CLUB SET | EP00929855 | 2000-05-24 | EP1108448A4 | 2001-09-26 | IWATA MOTOTAKA; SAKAI KOJI; NAGAO HIROSHI; KIMURA TAKASHI; MIZOBATA MASAHIRO |
| A golf club head (1, 101) has a momental ellipsoid (10, 110). Assuming that three principal axes of the momental ellipsoid (10, 110) orthogonal to each other at the origin are an axis I1, an axis I2 and an axis Is in order of larger moments of inertia about the principal axes, the ratio (A/B) of a sectional area A at the time of cutting the momental ellipsoid (10, 110) along a plane passing through the origin and parallel to a face plane (11, 111) and a sectional area B at the time of cutting the momental ellipsoid along a plane including the axis I1 and the axis I2 is at least 1 and not more than 1.4. |
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| 137 | Golf club | EP98104952.1 | 1998-03-18 | EP0891791B1 | 2001-06-06 | Naruo, Takeshi, c/o Mizuno Corporation; Saito, Takeshi, c/o Mizuno Corporation; Ashida, Hiroki, c/o Mizuno Corporation; Fujikawa, Yoshihiro, c/o Mizuno Corporation |
| A fiber reinforced plastic golf shaft (1) has bending stiffness of 2 x 10<6>kgf.mm<2> or less between a tip end (1A) and the position 200mm apart from the tip end and that of 8 x 10<6>kgf.mm<2> or more for the portion at least 900mm apart from tip end (1A). Golf shaft (1) is mounted on a golf club head (2) having neck length of 50mm or shorter to complete a golf club (3). |
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| 138 | Golf club having vibration damping device and method for making same | EP96303541.5 | 1996-05-17 | EP0747098B1 | 2000-09-06 | Nashif, Ahid; Macioce, Paul J. |
| A golf club (10) having a vibration damping device including a club head (12), a shaft (16) connected to the club head (12) having resonant frequencies over a predetermined range and a rod (20) disposed within the shaft (16) with a viscoelastic material (22) interposed between the shaft (16) and the rod (20). The rod (20) is flexible and has resonant frequencies over the same frequency range as the shaft (16) such that the shaft (16) and rod (20) vibrate out of phase with respect to each other and thereby deform the viscoelastic material (22) to damp vibrations in the shaft (16). |
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| 139 | A GOLF CLUB | EP97924124.0 | 1997-05-29 | EP0910442A1 | 1999-04-28 | WILSON, Geoffrey |
| PCT No. PCT/GB97/01456 Sec. 371 Date Nov. 25, 1998 Sec. 102(e) Date Nov. 25, 1998 PCT Filed May 29, 1997 PCT Pub. No. WO97/45172 PCT Pub. Date Dec. 4, 1997A golf club having a shaft (3) and a club head (2) which is connected to a shank portion (4) of the shaft at its heel end (31) so that it can be rotated around the axis of the shank portion. The configuration of the shank portion is such that the shaft axis and the shank axis intersect at about the bottom of the heel end of the club head so that rotating the club head around the shank axis causes the angle between the club face (30) and the shaft (3) to change. | ||||||
| 140 | VIBRATION ANALYZER | EP97903081 | 1997-01-27 | EP0817963A4 | 1999-02-03 | MCCONNELL KENNETH G; JOHNSON PAUL C |
| Vibrational analysis is used to map the true sweet spot of a golf club. The testing device, method of testing, method of designing a golf club, and tuned golf clubs are disclosed. | ||||||
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