Not applicable.
Not applicable.
1. Field of Invention
The disclosed invention pertains to the device designed for the racking of billiard balls, specifically, the racking of billiard balls in a diamond-shaped configuration as well as many non-conventional configurations. It is specifically designed to remedy the inherent problems with the currently-available billiard racks of the balls not racking tightly and balls being moved or disturbed upon removal of the rack. Currently, the majority of billiard racks are one-piece devices and fit relatively loosely over the billiard balls, which does not rack the balls tightly. Players normally attempt to use their fingers to force a tighter arrangement. Also, with the currently-available racks being one piece, removing the rack without disturbing the balls is almost impossible. The optimal goal is for each billiard ball to be in direct contact with each other. Tight racking of the balls is of the utmost importance to a good and true break of the balls.
There is a need for a billiard ball rack which is simple in its design and construction, yet superior in its function. The present invention will accomplish these goals and provide additional multi-ball racking capabilities of multiple configurations.
2. Description of the Prior Art
All billiard games require the tight racking of the billiard balls (all balls touching each other.) Numerous popular billiard games are described in the “Billiard: The Official Rules &Records Book” published by the Billiard Congress of America. This book describes in great detail the rules for playing 7-ball, 9-ball and poker pool. It explains the equipment (diamond-shaped racks) that is needed to play these games, and also emphasizes the need to have the balls tightly racked. All currently-available billiard racks are one-piece apparatuses and therefore have the inherent problems as previously stated above of loosely-racked balls. Another billiard game described in “Official 16-Ball Rules and Regulations,” copyright 2004, 16-Ball, Inc., also racks billiard balls into a 16-ball, diamond-shaped configuration.
The great majority of currently-available billiard racks are one-piece, triangular-shaped or diamond-shaped devices. They support a very limited number of billiard ball-racking configurations and, therefore, a limited number of billiard games. The great majority of billiard games being played today, i.e., 8-ball, 9-ball, have changed little since the early 1900s. The currently available diamond-shaped racks are one-piece devices and support only one configuration.
The current invention, being a two-piece device allows for a multitude of non-conventional configurations, one of which is demonstrated in
The present invention brings radical improvements to today's typical rack design, specifically the rack being in two pieces rather than one solid piece. This allows the balls to be placed together in as tight a formation as possible. Then, and again via the two-piece construction, the rack is easily removed from each side without disturbing the tightly-racked balls.
The present invention comes in three different sizes, with all heights and widths and angle opening being identical and only length of sides varying with each different size, each being proportional to a varying number of balls it is capable of racking. Each rack is comprised of two mirror-imaged V-shaped sides that when brought together form a diamond shape. (See
Each rack is capable of racking a multiple number of balls in a variety of configurations. Configurations include but are not limited to diamond shaped, hexagonal, and trapezoidal.
All references to number of billiard balls refer to standard-sized billiard balls (2¼″ diameters). The largest rack (See
The mid-sized rack (See
The small rack (See
The accompanying drawings illustrate the invention. Such drawings illustrate the following:
The present invention, two-piece diamond billiard rack, may be constructed from an assortment of materials. The simplicity of design will allow easy manufacture of the present invention, whether using wood, wood composites, metal, metal composites, ceramic, ceramic composites, plastics, including phenolic resin. The preferred methods of manufacture are wood, plastics (injection molding) and/or phenolic resins.
Manufacturing out of wood products would involve simply the cutting of the sections to the specified dimensions and finishing with a chosen sealer (i.e., paint, wood stain, varnish). The preferred method would entail use of a computerized industrial wood saw that is capable of cutting to perfect specifications with little or no variance. Preferred manufacture would be for each side of the rack to be one solid piece of wood (no cutting or joint at the vertex), although a joint at the vertex would be an alternative method of production.
Manufacturing using injection molding, whether plastics or phenolic resin would involve the production of three molds (three sizes) to the specified dimensions, followed by the injection molding process itself.
The present invention is a radical improvement not only to existing diamond-shaped billiard racks, but conventional triangular racks, (when used to rack 7 or 9 balls with your fingers) as well. The first major improvement addressed by the present invention is the tight racking of balls along with the easy removal of the rack without disturbing the balls. Due to its two-piece design (See
The second major improvement of the present invention is that it allows for the removal of the rack without disturbing the balls. Currently available racks, being one piece, are almost impossible to remove without bumping or disturbing the racked balls. The present invention, again due to its simple two-piece construction, allows for the withdrawal of the rack from both sides with no touching or disturbing of the now tightly-racked balls.
The dimensions of the present invention are not without important design function. The width, height and angle opening measurements are identical in all sizes. (See Numerals #1, #2 and #3 in
The lengths are the only dimensions which vary from size to size. (See Numeral #4,
Note: The height and width and lengths could vary ever so slightly from the specified dimensions, however, the angle of 120° can afford no substitution.
The contemplated mode for carrying out the present invention will include manufacture with wood/wood products and plastic/phenolic resin. Distribution and marketing through presently-available channels will be pursued.
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4307881 | Jaworski | Dec 1981 | A |
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Number | Date | Country |
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2156690 | Oct 1985 | GB |
Number | Date | Country | |
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20060030416 A1 | Feb 2006 | US |