CA2166000A1

CA2166000A1 - Sports racket

Info

Publication number: CA2166000A1
Application number: CA 2166000
Authority: CA
Inventors: Charles Dicerbo
Original assignee: Individual
Current assignee: Individual
Priority date: 1995-12-22
Filing date: 1995-12-22
Publication date: 1997-06-23

Abstract

This invention relates to an improvement in a split bridge sports racket having a frame with a rim and a handle, the rim being formed with string tunnels through which the string extends to form an impact surface, the handle having a Y configuration, the arms of which merge with the rim to define a bridge section of the rim that extends between the ends of the arms of the Y
configuration, the bridge having a discontinuity, the free ends of the bridge at the discontinuity articulating with a bridge insert to reduce player arm stress in use. The improvement resides in providing a bridge having a length to accommodate at least four central longitudinal string tunnels of the racket with each central longitudinal string tunnel extending in the same direction as their respective longitudinal strings through the said bridge.

Description

This application relates to a sports racket of the type used in a game such as tennis, racket ball or squash, and having a split-frame.

Split-frame rackets of the type having a discontinuous rim plugged with a resilient insert are not new. They were developed to increase the size of the sweet spot on the stringed face of the racket and to lessen the impact transferred through the racket from the ball to the arm of the player. The split frame and resilient insert allowed the rim of the racket head to flex more than it would otherwise and absorb some of the impact that would have otherwise been felt by the player's arm into the racket head. The split frame represents an advance in the art of racket sports for those reasons.

An example of a split-frame racket is as taught in the inventor's prior U.S. patent 5,350,173.

In the design of split-frame rackets, whenever a racket frame has been split, there has always been a concern that the racket would not be structurally strong enough to handle the impact of a high velocity playing ball. It is for this reason that all split-frame rackets made to date have been made by splitting the rim at its central bridge area, making the frame at the bridge area as thick as possible and, because of the thickness of the rim at the bridge area, designing the string arrangement so that no more than two string tunnels go directly through the bridge, with the adjacent string tunnels being directed to the side of the racket head.

The split-frame racket, for all of its advantages, does have a serious drawback. The stress caused by the impact which has been re-directed from the player's arm back to the racket has caused a higher incidence of string breakage. The stress has been successfully re-directed, but too much of that re-directed stress has then been borne by the strings. For instance, it would not be uncommon for a person of professional calibre to have to re-string their split-frame racket after only about two hours of play because of string breakage. Using a non-split frame, the same player would only have to re-string after about eight hours of play.

As long as the split-frame racket has been available, which has been a substantial number of years, this problem has persisted. The present invention, however, provides a satisfactory solution.

It is an object of the present invention to provide a string racket with a split frame that lessens the problem of string breakage, while still maintaining the advantages of a split-frame racket.

According to an aspect of the present invention, there is provided in a split bridge sports racket having a frame with a rim and a handle, the rim being formed with string tunnels through which the string extends to form an impact surface, the handle having a Y configuration, the arms of which merge with the rim to define a bridge section of the rim that extends between the ends of the arms of the Y configuration, the bridge having a discontinuity, the free ends of the bridge at the discontinuity articulating with a bridge insert to reduce player arm stress in use, the improvement of a bridge having a.length to accommodate at least four central longitudinal string tunnels of the racket;
each of said central longitudinal string tunnels extending in the same direction as its respective longitudinal string through the said bridge.

The invention will be more clearly understood after reference to the following specification given in conjunction with the drawings in which:

FIGURE 1 is an illustration of a front view of the preferred embodiment of the present invention;

FIGURE 2 is an illustration of a partial perspective view of the preferred embodiment of the invention;

FIGURE 3 is an illustration showing the parts used in the manufacture of the preferred embodiment;

FIGURE 4 is an illustration of a racket having a split frame of the type that has been used prior to this invention, with the stringing extending through the bridge portion illustrated in phantom.

Referring to the embodiment illustrated in Figures 1 to 3, there is shown a racket generally referred to by the numeral 8, strung under pressure with strings generally indicated by the numeral 10 of the conventional type. The racket frame has a Y-shaped handle 12 and a head with a rim 13 that has a discontinuity at its bridge portion to provide two spaced free ends 17.

The embodiment of an old style split-frame racket, of the type available, and illustrated in Figure 4, is similarly numbered.

The difference between the embodiment of Figure 4 and the embodiment of Figures 1 to 3 is that there are only two longitudinal string tunnels 15 extending the same direction as their respective longitudinal string lengths, numbered lOa and lOb, through the free ends 17 at the bridge in the Figure 4 embodiment. But in the embodiment shown in figures 1 to 3, there are six string tunnels 16 extending in the same direction as their respective longitudinal string lengths through the free ends 17 at the bridge in the embodiment of Figures 1 to 3.

In Figure 4, it would not be possible to direct more than two longitudinally-extending string tunnels through the bridge because the bridge is too thick. The string tunnels 15 are therefore directed to the side, as shown in phantom.

In the racket of this invention, the free ends 17 of the bridge have been lengthened and made thinner for the stringing to occur. By redirecting the stringing, the stress exerted on the strings on impact is reduced because there is less redirection and less breakage occurs. However, the advantages of a bigger sweet spot and reduction of the impact transferred to the player's arm remain. Also, surprisingly, the racket frame r~m~; n~ strong enough.

The insert, generally referred to by the numeral 20, is transversely sloped at surfaces 22 which are designed to permit the ends 17 to bend laterally of the plane of the rim of the racket head upon impact of a ball during play. A significant modification now possible with the current invention is the lengthening of the strip member 25, further spreading the stress resulting from the impact of the ball during play. In the prior art, as illustrated in Figure 4, the strip member 25 is of a more limited length, not providing the same spreadout of stress.

The strip member 24, as is the case in both the prior art and the preferred embodiment of this invention, is formed with sheaths 26 that extend from the strip member and secure the insert 20 in the racket.

The stringing of the racket, shown in the preferred embodiment, is conventional. The strip member 24 is held in place in the racket by the tension of the string lengths lOa, lOb, lOc, lOd, lOe and lOf of string 10 which extends through and around the rim and is continuous.

As previously described, in the conventional embodiment, only string lengths lOa and lOb extend through the bridge.

Mounted around the free ends of sheaths 30 is a shock absorbing clamp member 32. The clamping member 32 overlaps the strings of the racket and the free ends of the sheaths 30 to transfer, during play, vibrations for the impact of a ball through the sheaths 26 and strip 24 to the insert 20.

The insert 20 (but not the lengthening of strip member 25), the clamping member 32 and the strip member 24 with sheaths 26 are all components of the prior art.

In result of the modifications made in the direction of the string tunnels and the restructuring of the bridge area of the 21660~0 racket, there is less string breakage while still maint~i n; ng the advantages of a split-frame racket.

It will be apparent to those skilled in the art that modifications to the preferred embodiment illustrated above will be possible without deviating from the substance of the invention as claimed in the claims. It is not intended that the description of the invention provided in this specification be read in a limiting sense. The illustrated design is a preferred one but is given by way of example only and not with the intention that it define the limits of the application of the principles of the invention to other designs.

Claims

1. In a split bridge sports racket having a frame with a rim and a handle, the rim being formed with string tunnels through which the string extends to form an impact surface, the handle having a Y configuration, the arms of which merge with the rim to define a bridge section of the rim that extends between the ends of the arms of the Y configuration, the bridge having a discontinuity, the free ends of the bridge at the discontinuity articulating with a bridge insert to reduce player arm stress in use, the improvement of a bridge having a length to accommodate at least four central longitudinal string tunnels of the racket;
each of said central longitudinal string tunnels extending in the same direction as its respective longitudinal string through the said bridge.

2. In a split bridge sports racket having a frame with rim and a handle, the rim being formed with string tunnels through which the string extends to form an impact surface, the handle having a Y configuration, the arms of which merge with the rim to define a bridge section of the rim that extends between the ends of the arms of the Y configuration, the bridge having a discontinuity, the free ends of the bridge at the discontinuity articulating with bridge insert to reduce player arm stress in use, the improvement as claimed in Claim 1 wherein:

there is provided a strip member to underlie the bridge of the racket, said strip member being of a length to accommodate the string passing through it at least four times.

3. In a split bridge sports racket having a frame with a rim and a handle, the rim being formed with string tunnels through which the string extends to form an impact surface, the handle having a Y configuration, the arms of which merge with the rim to define a bridge section of the rim that extends between the ends of the arms of the Y configuration, the bridge having a discontinuity, the free ends of the bridge at the discontinuity articulating with a bridge insert to reduce player arm stress in use, the improvement as claimed in Claim 1 wherein the bridge has a length to accommodate at least six central longitudinal string tunnels of the racket; the said central longitudinal string tunnel extending in the same direction as their respective longitudinal strings through the said bridge.