This invention relates generally to golf equipment and, in particular, to a golf putter head with top and bottom components made of materials having different densities.
Recent developments in golf equipment have resulted in putters with heads that have higher moments of inertia. For example, U.S. Pat. No. 5,482,281 to D. W. Anderson discloses a putter head sold under the name DANSER. The Anderson putter head has heel and toe weights mounted on a lower plate-like member. The heel and toe weights and the lower plate-like member are preferably made of heavyweight material such as bronze or steel. An upper shell-like member, preferably made of lightweight material such as plastic or aluminum, is secured to the lower plate-like material to enclose the heel and toe weights. U.S. Pat. No. 5,842,935 to M. J. Nelson discloses a putter head sold under the name NELLI. The Nelson putter head has a horseshoe shaped body formed of high density material such as steel with thickened heel and toe portions. The horseshoe shaped body includes a cavity which receives an insert formed of low density material such as polyurethane. The insert preferably constitutes about 15% of the total weight of the putter head while constituting more than 50% of the total volume of the putter head. Further, U.S. Pat. No. 6,960,140 to J. A. Solheim et al discloses a putter head sold under the name CRAZE. The Solheim et al putter head includes a central member connected to a face member. The central member has a thickened portion located rearward of the face member, and a pair of arms extend rearward from heel and toe ends of the face member.
The present invention provides a golf putter head comprising a face arranged for impacting a golf ball, the face having a heel end, a toe end, and a middle section disposed between the heel and toe ends. A rear mass is located substantially rearward of the face, and an arm extends rearwardly from the face toward the rear mass. Portions of the heel and toe ends of the face, the arm and the rear mass are included in a bottom component that is made of a first material having a first density. Other portions of the heel and toe ends of the face and the middle section of the face are included in a top component that is made of a second material having a second density which is substantially less than the first density. The first material is preferably metal whereas the second material is preferably polymer.
In the preferred embodiment of the golf putter head, the top component is attached to the bottom component by fasteners. A plurality of projections on the top component fit into a plurality of holes in the bottom component. One of the projections and one of the holes are located at the heel end of the face, and another one of the projections and another one of the holes are located at the toe end of the face. One of the fasteners is located at the heel end of the face while another one of the fasteners is located at the toe end of the face. Lower portions of the heel and toe ends of the face are included in the bottom component. Upper portions of the heel and toe ends of the face are included in the top component.
A golf putter 10 includes a putter head 15, a shaft 16, and a grip 17. A lower end of the shaft 16 is inserted in a hosel 26 on the putter head 15, and the grip 17 is attached to an upper end of the shaft 16. When assembled as shown in
As shown in the exploded view in
The putter head 15 is configured to have a relatively high moment of inertia. To accomplish this high moment of inertia, weight is concentrated at or near face heel end 21, face toe end 22 and rear mass 25. A lower portion 81 of the face heel end 21, a lower portion 82 of the face toe end 22, the arms 41 and 42, and the rear mass 25 are all formed as parts of the bottom component 31. The face middle section 23, an upper portion 83 of the face heel end 21 and an upper portion 84 of the face toe end 22 are formed as parts of the top component 32. The top component 32 includes wing portions 108, 109 that are disposed on top of the arms 41, 42 of the bottom component 31.
Fasteners or screws 36 and 37 attach the top component 32 to the bottom component 31 by extending through the bushings 38 and 39 (which are inserted in holes 56, 57 in the bottom component 31) and then threading into projections 106, 107 on the top component 32. Screw 36 is located at the heel end 21 of the face 20 while screw 37 is located at the toe end 22 of the face 20. A suitable adhesive may also be used when attaching the top component 32 to the bottom component 31. The projections 106, 107 and other projections 101, 102 fit or project into the holes 56, 57 and other holes 51, 52. The projections 101, 102 are formed on the wing portions 108, 109 of the top component 32, and the holes 51, 52 are formed in the arms 41, 42 of the bottom component 31. The projection 106 and the hole 56 are located at the heel end 21 of the face 20, and the projection 107 and the hole 57 are located at the toe end 22 of the face 20.
If desired, holes 56, 57 and projections 106, 107 may be slightly tapered. Also, holes 51, 52 and projections 101. 102 may be slightly tapered. With projections 101, 102, 106 and 107 fitting or projecting into holes 51, 52, 56 and 57, lateral movement between bottom component 31 and top component 32 is prevented.
Inserts 33 and 34 are attached to bottom component 31, top component 32, or both, with adhesive or double-sided tape. Inserts 33 and 34 may be made of polymer or plastic and may include an alignment aid. As shown in