Composite billiard cue shaft

Abstract

An improved billiard cue shaft is disclosed. The shaft includes a tapered and tubular shaft body made of a composite material such as carbon fiber/epoxy and may also include a plastic foam core. The thickness of the wall of the shaft body increases continuously along the length of the shaft from a low at the smaller front end to a high at the larger back end. The shaft, when correctly used to form the body, or a portion of the body of a billiard cue, will facilitate a more efficient transfer of energy to the cue ball.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the overall configuration of the common two piece billiard cue and how the present invention would fit into this configuration. A releasable joint at the middle point of the cue connects the front half to the back half. The front half includes a shaft 12, a tip cap 13, and a tip 14. The back half includes a shaft 11 and a butt cap 15.

FIG. 2 shows a longitudinal cross section of the shaft 11 and how it might be joined to the butt cap 15 and to the back half of the middle joint 17. 16 indicates the location of the foam core.

FIG. 3 shows a longitudinal cross section of the shaft 12 and how it might be joined to the front half of the middle joint 18 and the tip cap 13 which supports the tip 14. 19 indicates the location of the foam core.

FIG. 4 shows a typical lateral cross section of shaft 11 or shaft 12. 16,19 indicates the location of the foam core.

DISCLOSURE OF INVENTION

The applicant has found through experimentation that the tubular composite shafts of constant wall thickness used to form prior art billiard cues do not provide satisfactory energy transfer or feel. The applicant has determined that by increasing the wall thickness of a tubular composite shaft gradually from front to back within a range, both the efficiency of energy transfer and the feel are improved when the shaft is used to form the body or even a portion of the body of a billiard cue. The lateral cross sectional area of a tapered solid wood shaft increases with the square of the diameter along its length and the cross sectional area of a constant wall tapered tubular shaft increases only directly with the diameter. It has been seen by the applicant that by building in a rate of increase of the cross sectional area of the tubular shaft to match or exceed that of solid shafts, that when used in billiard cues, those cues perform better even than solid shafted cues. A mechanical stroking device has been utilized to demonstrate that cues made from these improved shafts produce more cue ball speed than cues made from prior art shafts, for a given speed of stroke and all other things being equal including the overall weight of the cue. It is apparent that the high coefficient of restitution of modern composite materials is better exploited by this design. Also noted is less vibration and improved feedback to the player.

A resilient foam core is known to further reduce unwanted vibration and quiet the otherwise hollow shafts and would be desirable in some models. A rigid foam core likewise dampens vibration somewhat and also works together with the strong skin like a sandwich effect to increase stiffness to weight ratio which would likewise be desirable in some models. In addition three “weights” are envisioned; lighter shafts with thinner walls for gentler games or for players with less powerful stroking technique, medium weight shafts, and heavier stronger shafts for the construction of cues made specifically for the break shot during which the impact forces are at their highest levels.

Claims

1. A round tapered tubular shaft to be used to form the body of a billiard cue or a portion of a billiard cue. Said shaft has a continuously increasing wall thickness from a low at the smaller front end to a high at the larger back end. Said shaft is made of a composite material of fibers in a binder such as carbon fiber/epoxy.

2. The shaft of claim 1 wherein the interior of the tapered tubular shaft is filled with a resilient plastic foam.

3. The shaft of claim 1 wherein it is used to form the front half of a billiard cue.

4. The shaft of claim 3 wherein the wall thickness at the front end is between 0.010″ and 0.020″ and increases to at least 0.050″ at the back end.

5. The shaft of claim 3 wherein the wall thickness at the front end is between 0.020″ and 0.030″ and increases to at least 0.070″ at the back end.

6. The shaft of claim 3 wherein the wall thickness at the front end is between 0.030″ and 0.040″ and increases to at least 0.090″ at the back end.

7. The shaft of claim 1 wherein it is used to form the back half of a billiard cue.

8. The shaft of claim 7 wherein the wall thickness at the front end is between 0.050″ and 0.070″ and increases to at least 0.100″ at the back end.

9. The shaft of claim 7 wherein the wall thickness at the front end is between 0.070″ and 0.090″ and increases to at least 0.120″ at the back end.

10. The shaft of claim 7 wherein the wall thickness at the front end is between 0.090″ and 0.0110″ and increases to at least 0.140″ at the back end.

11. A round tapered shaft to be used to form the body of a billiard cue or a portion of a billiard cue. Said shaft includes an outer skin made of a composite material of fibers in a binder such as carbon fiber/epoxy and an inner core of structural rigid plastic foam. Said outer skin has a continuously increasing wall thickness from a low at the smaller front end to a high at the larger back end.

12. The shaft of claim 11 wherein it is used to form the front half of a billiard cue.

13. The shaft of claim 12 wherein the wall thickness at the front end is between 0.010″ and 0.020″ and increases to at least 0.050″ at the back end.

14. The shaft of claim 12 wherein the wall thickness at the front end is between 0.020″ and 0.030″ and increases to at least 0.070″ at the back end.

15. The shaft of claim 12 wherein the wall thickness at the front end is between 0.030″ and 0.040″ and increases to at least 0.090″ at the back end.

16. The shaft of claim 11 wherein it is used to form the back half of a billiard cue.

17. The shaft of claim 16 wherein the wall thickness at the front end is between 0.050″ and 0.070″ and increases to at least 0.100″ at the back end.

18. The shaft of claim 16 wherein the wall thickness at the front end is between 0.070″ and 0.090″ and increases to at least 0.120″ at the back end.

19. The shaft of claim 16 wherein the wall thickness at the front end is between 0.090″ and 0.110″ and increases to at least 0.140″ at the back end.