DISC THROWING GAME HAVING ILLUMINATION MEANS

Abstract

The invention comprises a target for a disc throwing game having at least one receptacle having a wall, the wall having an inner surface and an outer surface, and at least one aperture therein, an illumination means secured to the inner surface of the wall, and, a first reflective member secured to the inner surface of the wall, operatively arranged to reflect light from the illumination means through the at least one aperture.

Description

FIELD OF THE INVENTION

The invention relates generally to games, and more specifically, to disc throwing games which can be played in the dark and/or in a swimming pool.

BACKGROUND OF THE INVENTION

Disc throwing games are commonly played in basements, playrooms, backyards, front yards, playgrounds, and campgrounds. Traditionally, disc throwing games involve little time and effort in assembling and disassembling the game components making such games highly portable. Game components typically include one or more discs and one or more receptacles arranged as targets set up to receive the discs. Points can be earned when a disc is thrown into the target receptacle from a distance. However, these games often lack versatility, such as playing in the dark or in water. Unfortunately, a game can be prematurely cut short when the sun sets and/or the players can no longer see the target receptacles. As a result, consumers must purchase separate games to be played in lighted environments, other games to be played in the dark, and still other games to be played in the water.

One such backyard game, sold under the trademark Kan Jam®, is disclosed in U.S. Pat. No. 5,382,028 (Sciandra et al.) Sciandra et al. disclose an apparatus and method for playing a disc throwing game. The disc throwing game includes two targets, each having an open top and a slot proximate the top of each target. The game is played by placing the two targets a distance from each other. Each target faces the other. Players take turns throwing a disc toward each target, with each throw being scored. While this patented game has enjoyed wide commercial success, thus far, game play is limited to play during the day and on dry land.

U.S. Pat. No. 6,971,940 (Cohen et al.) discloses a throwing disc which has a solid circular shape containing a light source. Unfortunately, the light source requires an electrical input which can affect the longevity of the flying disc and the construction of the disc.

Finally, U.S. Pat. No. 8,348,713 (Groft et al.) discloses a flying disc formed of knotted filaments having a photo luminescent property. The disc described in the patent is flexible and designed for indoor use. Unfortunately, the disc is not designed for indoor and outdoor use in conjunction with a disc throwing game.

Therefore, there is a long-felt need for a versatile disc throwing game that can be played in the dark and/or in a swimming pool.

BRIEF SUMMARY OF THE INVENTION

The invention comprises a target for a disc throwing game having at least one receptacle having a wall, the wall having an inner surface and an outer surface, and at least one aperture therein, an illumination means secured to the inner surface of the wall, and a first reflective member secured to the inner surface of the wall, operatively arranged to reflect light from the illumination means through the at least one aperture.

In another embodiment, the invention comprises a target for a disc throwing game having at least one receptacle having a wall, the wall having at least one aperture therein, and a flotation member fixedly secured to the receptacle.

The invention also comprises a target for a disc throwing game having at least one receptacle having a wall, the wall having an inner surface and an outer surface, and at least one aperture therein, an illumination means secured to the inner surface of the wall, a first reflective member secured to the inner surface of the wall, operatively arranged to reflect light from the illumination means through the at least one aperture, and a flotation member fixedly secured to the receptacle.

Furthermore, the invention comprises a disc throwing game assembly having a first receptacle having a first wall, the wall having an inner surface and an outer surface, and at least one aperture therein. The invention further comprises a second receptacle having a second wall, the wall having an inner surface and an outer surface, and at least one aperture therein, a disc-shaped gliding object, an illumination means secured to the inner surface of the walls of the first and second receptacles, and a first reflective member secured to the inner surface of the walls of the first and second receptacles. The reflective members are operatively arranged to reflect light from the illumination means through the at least one aperture.

The present invention also comprises a disc throwing game assembly having a first receptacle having a wall, the wall having an inner surface and an outer surface, and at least one aperture therein. The invention further comprises a second receptacle having a wall, the wall having an inner surface and an outer surface, and at least one aperture therein, a disc-shaped gliding object, a first flotation member fixedly secured to the first receptacle, and a second flotation member fixedly secured to the second receptacle.

In another embodiment, the invention comprises a target for a disc throwing game having a receptacle having at least one aperture therein, and an illumination means secured to the receptacle operatively arranged to transmit light.

In a further embodiment, the invention comprises a method of playing a disc throwing game where the game is played by only two players, a first player and a second player, having the steps of: (a) arranging a first receptacle and a second receptacle a distance apart wherein the receptacles face each other and each of the receptacles includes an aperture and an open top; (b) positioning the first player behind the first receptacle and the second player behind the second receptacle; (c) throwing a disc-shaped gliding object at the first receptacle by the second player; (d) tallying at least one point based on the throw by the second player if the disc-shaped gliding object hits the first receptacle directly; (e) declaring the second player a winner based on the throw by the second player if said disc-shaped gliding object lands inside the first receptacle; (f) throwing the disc-shaped gliding object at the second receptacle by the first player; (g) tallying at least one point based on the throw by the first player if the disc-shaped gliding object hits the second receptacle directly; (h) declaring the first player a winner based on the throw by the first player if the disc-shaped gliding object lands inside the receptacle; and, (i) repeating steps (c) through (h) in alternating fashion.

Accordingly, it is a primary object of the invention to have a disc throwing game that is versatile and can be played in a variety of outdoor settings or environments.

It is a further object of the invention to have a disc throwing game with two receptacles each having an open top, an open bottom, a slot, and a light source to enable gameplay at night.

Still another object of the invention to have a disc throwing game with two receptacles each having an open top, an open bottom, a slot, a means for flotation to enable gameplay in a pool.

These and other objects, features, and advantages of the present invention will become apparent in view of the following detailed description in view of the drawings and appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The nature and mode of operation of the present invention will now be more fully described in the following detailed description of the invention taken with the accompanying figures, in which:

FIG. 1 is a perspective view of the target receptacle of the invention;

FIG. 2 is a front view of the target receptacle of the invention showing the illumination means in an activated mode;

FIG. 3 is a rear view of the target receptacle of the invention;

FIG. 4 is a top view of the target receptacle of the invention showing the illumination means interacting with the reflective members of the invention by way of representative light rays;

FIG. 5 is a bottom view of the target receptacle of the invention;

FIG. 6 is a view of the components of one embodiment of the target receptacle of the invention before assembly showing the illumination means, the reflective members, and a throwing disc;

FIG. 7 is a top view of one embodiment of the target receptacle of the invention flattened showing the illumination means and the reflective members assembled;

FIG. 8 is an environmental view of the illuminated disc throwing assembly in use;

FIG. 9 is an environmental view of a second embodiment of the target receptacle of the invention showing the flotation means attached;

FIG. 10 is a perspective view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached;

FIG. 11 is a top view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached;

FIG. 12 is a bottom view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached and partially cut away;

FIG. 13 is a front view of the target receptacle of the invention as depicted in FIG. 9 showing the disc-shaped gliding object and the flotation means attached;

FIG. 14 is a rear view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached;

FIG. 15 is a left side view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached;

FIG. 16 is a right side view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means attached; and,

FIG. 17 is an exploded perspective view of the target receptacle of the invention as depicted in FIG. 9 showing the flotation means detached from the target receptacle and not showing the illumination assembly means of the invention.

DETAILED DESCRIPTION OF THE INVENTION

At the outset, it should be appreciated that like drawing numbers on different drawing views identify identical, or functionally similar, structural elements of the invention. While the present invention is described with respect to what is presently considered to be the preferred aspects, it is to be understood that the invention as claimed is not limited to the disclosed aspect. The present invention is intended to include various modifications and equivalent arrangements within the spirit and scope of the appended claims.

Furthermore, it is understood that this invention is not limited to the particular methodology, materials and modifications described and as such may, of course, vary. It is also understood that the terminology used herein is for the purpose of describing particular aspects only, and is not intended to limit the scope of the present invention, which is limited only by the appended claims.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs. Although any methods, devices or materials similar or equivalent to those described herein can be used in the practice or testing of the invention, the preferred methods, devices, and materials are now described.

Adverting now to the Figures, FIG. 1 depicts target receptacle 10 such as would be used with illumination assembly means 21 (not shown in FIG. 1) and/or flotation means 50 (not shown in FIG. 1), as will be described further below. In this embodiment, target receptacle 10 comprises inner wall 11, outer wall 12, first end 17A, and second end 17B. As will be described further below, target receptacle 10 forms a cylinder when ends 17A, 17B are rolled together and secured by tabs 23. Target receptacle 10 further comprises top 13, bottom 14, front 15, and rear 16. Top 13 and bottom 14 are open. Front 15 and rear 16 represent semi-cylindrical portions of target receptacle 10. Target receptacle 10 further comprises aperture 18. Preferably, aperture 18 is arranged proximate front 15 and top 13. It should be appreciated that target receptacle 10 could take any shape. For example, inner wall 11 and outer wall 12 of target receptacle 10 could be arranged to form a quadrilateral, a trapezoid, a polygon, or a frustoconical receptacle. Furthermore, target receptacle 10 could include a closed bottom while maintaining open top 13. In the preferred embodiment, target receptacle 10 has open top 13 and open bottom 14 so that target receptacle 10 is easily rolled-up for storage, packaging, and shipping. In order to roll-up target receptacle 10, tabs 23 are uncoupled from gaps 25 (to be described further below) of first end 17A. Furthermore, aperture 18 could form any shape, for example, an ellipsoid. Illumination assembly means 21 (not shown) is arranged within target receptacle 10.

Target receptacle 10 is cylindrical in shape and serves as the goal for a disc throwing game. In its preferred embodiment, target receptacle 10 is constructed of a pliable plastic film. The plastic film is durable, lightweight, bendable, and highly portable. Any material displaying these or similar qualities can be used to construct target receptacle 10, for example, fabric with a plastic or metal frame or a cardboard receptacle. Additionally, target receptacle 10 could be constructed of a hard plastic such that it cannot be rolled-up; eliminating the need for ends 17A, 17B.

FIG. 2 depicts the front view of target receptacle 10 as shown in FIG. 1. Aperture 18 is shaped as an open rectangular channel that is arcuate when target receptacle 10 is rolled together. Aperture 18 is correspondingly arcuate along the curvature of inner and outer walls 11, 12 of target receptacle 10. When illumination assembly means 21 (not shown) is activated, light emanates upwards from open top 13 and outwards through aperture 18 of target receptacle 10. For purposes of illustration, rays 30 represent typical light rays that are emitted from open top 13 when illumination assembly means 21 (not shown) is activated.

The rear of target receptacle 10 is shown in FIG. 3. When rolled together, target receptacle 10 is secured by tabs 23 and gaps 25. Gaps 25 are arranged proximate first end 17A of target receptacle 10. Preferably, gaps 25 are parallel to one another. Tabs 23 are arranged proximate second end 17B. Gaps 25 are arranged to receive tabs 23. In the preferred embodiment, there are six gaps 25 and three tabs 23. More specifically, the top-most two gaps 25 are arranged to receive the top-most tab 23. The middle two gaps 25 are arranged to receive the middle tab 23. Similarly, the bottom-most two gaps 25 are arranged to receive the bottom-most tab 23. It should be appreciated that there could be additional or fewer tabs 23 and gaps 25. Additionally, tabs 23 could be any shape such that tabs 23 removably engage gaps 25. Similarly, gaps 25 could be any shape such that gaps 25 removably receive tabs 23. Tabs 23 protrude from second end 17B of target receptacle 10 and into gaps 25. Preferably, tabs 23 are substantially “T”-shaped such that the upper and lower extensions 23A (not shown) engage gaps 25. The distance between the upper-most end of each tab 23 and the lower-most end of each tab 23 is greater than the distance between their respective gaps 25. Tabs 23 are biased open such that when tabs 23 are squeezed inward and placed into gaps 25, tabs 23 spring open automatically to engage inner wall 11. Unless tabs 23 are pulled from gaps 25, tabs 23 remain coupled with gaps 25. Tabs 23 are arranged to be inserted into gaps 25 by a user to form the cylindrical target receptacle 10. Hereinafter, gaps 25 and tabs 23 when engaged will be referred to as seam 26. It should be appreciated that tabs 23 and gaps 25 are the preferred means for securing target receptacle 10. However, any means of securing target receptacle 10 in a cylindrical shape, or other suitable shape, can be used, for example, hook and loop fasteners or snap buttons.

FIG. 4 depicts a top view of target receptacle 10. Top 13 of target receptacle 10 is open. As described above, seam 26 is formed by side 17A adjoined with side 17B by tabs 23 (not shown) and gaps 25 (not shown). Illumination assembly means 21 comprises light source 21A fixedly secured to target receptacle 10 diametrically opposite seam 26. Further, illumination assembly means 21 comprises first, second, third and fourth reflective members 22A, 22B, 22C, and 22D, respectively. First reflective member 22A is secured to inner wall 11 proximate light source 21A. First reflective member 22A is located between light source 21A and inner wall 11. Second reflective member 22B is secured to inner wall 11 proximate first end 17A. Third reflective member 22C is secured to inner wall 11 proximate second end 17B. Fourth reflective member 22D is secured to inner wall 11 proximate seam 26. Preferably, inner wall 11 is black and reflective members 22A, 22B, 22C, and 22D are reflective white. However, it should be appreciated that reflective members 22A, 22B, 22C, and 22D are not necessary if target receptacle 10 is constructed of a color and/or material which substantially reflects light. For example, target receptacle 10 could have a white reflective inner wall 11. Further, target receptacle 10 could be translucent, such that the light from light source 21A is transmitted through outer wall 12, in which case reflective members 22A, 22B, 22C, and 22D would not be required. FIG. 4 also depicts sample rays 30. It should be appreciated that sample rays 30 represent three types of light rays that can occur in an infinite number of ways. For example, some rays 30 will be absorbed by the non-reflective surface of inner wall 11 of target receptacle 10. Other rays 30 will be transmitted from light source 21A, bounce off reflective members 22B, 22C, and/or 22D opposite light source 21A and exit target receptacle 10 through aperture 18 (not shown) and/or open top 13. Still other rays 30 originating from light source 21A will bounce off at least one reflective member 22B, 22C, 22D opposite light source 21A, then bounce off first reflective member 22A surrounding light source 21A, and then exit target receptacle 10 through aperture 18 (not shown) and/or open top 13. It should be appreciated that the light emitted by light source 21A appears as a glow rather than individualized rays.

A bottom view of target receptacle 10 and illumination assembly means 21 is shown in FIG. 5. Rays 30 are not illustrated. First reflective member 22A is arranged between light source 21A and inner wall 11 of target receptacle 10. For purposes of illustration, first, second, third, and fourth reflective members 22A, 22B, 22C, and 22D are visible from this view; however, it should be appreciated that reflective members 22A, 22B, 22C, and 22D are rather thin and may not be as noticeable from the top and bottom views when adhered to inner wall 11. Second reflective member 22B is shown secured to inner wall 11. Adjacent to second reflective member 22B, third and fourth reflective members 22C, 22D are secured to inner wall 11. Fourth reflective member 22D is positioned between second and third reflective members 22B, 22C proximate seam 26. Light source 21A is opposite seam 26 and fourth reflective member 22D. Second and third reflective members 22B, 22C are arranged at an angle from light source 21A. Second, third, and fourth reflective members 22B, 22C, and 22D are all arranged along rear 16 of target receptacle 10 opposite front 15 of target receptacle 10 when target receptacle 10 is rolled together.

FIG. 6 depicts the elements of illumination assembly means 21 as shown and described in FIGS. 1 through 5. In order to activate illumination assembly means 21, a user fixedly secures reflective members 22A, 22B, 22C, and 22D to inner wall 11 of target receptacle 10 (not shown). Each reflective member 22A, 22B, 22C, and 22D comprises an adhesive side which is protected by peel off backing. The adhesive sides of reflective members 22A, 22B, 22C, and 22D, when exposed for placement, are applied to inner wall 11 (not shown). The non-adhesive sides of reflective members 22A, 22B, 22C, and 22D are reflective white and arranged to transmit light from light source 21A. The non-adhesive sides, or reflective sides of reflective members 22B, 22C, and 22D face non-adhesive side, or reflective side of reflective member 22A. Preferably, first reflective member 22A is rectangular and measures approximately 6 inches long by approximately 5 inches high. Second and third reflective members 22B, 22C are also rectangular and measure approximately 9 inches long by approximately 10 inches high. Second and third reflective members 22B, 22C are substantially similar. Fourth reflective member 22D is also rectangular and measures approximately 5 inches long by approximately 10 inches high.

Illumination assembly means 21 further comprises light source 21A secured to inner wall 11 of target receptacle 10 (not shown). Light source 21A is secured by fastener 27. Fastener 27 includes one side with fastening means 29 preferably made of hook and loop fastener to hold light source 21A. Fastener 27 further includes another side which includes a strong adhesive protected by peel off backing. Light source 21A comprises housing button 28, a removable back, a plurality of light-emitting diodes (LEDs), and a plurality of batteries, preferably three batteries having a size of AAA, arranged to power the LEDs. The removable back of light source 21A comprises fastening means 29, also preferably made of hook and loop fastener, arranged to engage fastening means side 29 of fastener 27. Fastening means 29 of light source 21A is arranged approximately in the center of the removable back of light source 21A. The removable back of light source 21A is removable by a typical twist and lock mechanism. When coupled, the removable back is in the locked position. Additionally, the removable back of light source 21A can include screws, preferably three, to further secure the removable back to light source 21A. Any suitable number of screws in any suitable arrangement, for example, a triangular arrangement, could suffice. To remove the removable back, the back is twisted to the unlocked position and pulled away from the housing button 28. Batteries can be installed and replaced when the removable back is pulled away. In order to secure light source 21A to inner wall 11 (not shown), a user removes the peel off backing of fastener 27 and positions fastener 27 approximately in the center of first reflective member 22A arranged on inner wall 11 (not shown). Light source 21A can be removably secured to fastener 27 by means of the hook and loop material arranged on both the back of light source 21A and fastener 27. The LEDs arranged within light source 21A are preferably green because it is the color that is easiest to perceive by people but, it should be appreciated that the LEDs could be any color or could be LEDs that change color. Further, it should be appreciated that light source 21A can be set to flash. Additionally, in the preferred embodiment, light source 21A comprises three LEDs but, it could comprise additional or fewer LEDs. The three LEDs of the preferred light source 21A are arranged in a triangular pattern. However, again it should be appreciated that the LEDs could be arranged in any suitable pattern. It should be appreciated that light source 21A can take any form, including incandescent light bulbs, fluorescent light bulbs, or glow sticks. Additionally, while the preferred fastener 27 is a hook and loop fastener, fastener 27 can include sticky adhesives, clips, or any other suitable attachment means. Once light source 21A is attached to inner wall 11 (not shown), the LEDs can be activated when housing button 28 is pressed. Housing button 28 is located on the top of light source 21A proximate LEDs. Housing button 28 is transparent to allow light emitted from the LEDs to pass from light source 21A. Light source 21A functions as a standard push light.

In another embodiment of the present invention, target receptacle 10 (not shown) can be lined with fiber optics. For example, fiber optics could line the perimeter of aperture 18 and/or top 13 (not shown). In this embodiment, target receptacle 10 (not shown) can include reflective members 22A, 22B, 22C, and 22D. Furthermore, in other embodiments, light source 21A or fiber optics could be placed on outer wall 12 or bottom 14 (not shown).

FIG. 6 further depicts disc-shaped gliding object 20 of illumination assembly means 21. Disc-shaped gliding object 20 is made of plastic and is arranged for gliding through the air when thrown. Additionally, disc-shaped gliding object 20 is photo luminescent. Further, disc-shaped gliding object 20 displays phosphorescent properties. In order to excite the phosphorescent properties, a user holds disc-shaped gliding object 20 under a bright light for about two minutes. Disc-shaped gliding object 20 charges while being exposed to bright light, and will glow in the dark for several hours after being removed from the light. Disc-shaped gliding object 20, in its preferred embodiment, is made of polypropylene. However, disc-shaped gliding object 20 could also be constructed of rubber, metal, or other lightweight malleable materials. Further, disc-shaped gliding object 20 could also have battery-powered LEDs. Disc-shaped gliding object 20 could be any size. In one embodiment, disc-shaped gliding object 20 is approximately 4.85 inches in diameter. In another embodiment, disc-shaped gliding object 20 is approximately 11 inches in diameter. In the preferred embodiment, the diameter of disc-shaped gliding object 20 is smaller than aperture 18 (as shown in FIG. 13). A smaller disc-shaped gliding object 20 is suitable for target receptacle 10 having flotation means 50. A larger disc-shaped gliding object 20 is suitable for target receptacle 10 having illumination means 21 without flotation means 50.

FIG. 7 depicts target receptacle 10 flattened. Illumination assembly means 21 is affixed to inner wall 11 of target receptacle 10. From left to right, gaps 25, arranged parallel to one another and in registration with tabs 23, are arranged along first end 17A of target receptacle 10. Fourth reflective member 22D is arranged proximate first end 17A and covers a portion of gaps 25. In order to allow tabs 23 to engage with gaps 25, a user must trim/cut out or puncture fourth reflective member 22D proximate covered gaps 25. Third reflective member 22C is arranged to the right of fourth reflective member 22D. It should be appreciated that third and fourth reflective members 22C, 22D have approximately the same height. Fourth reflective member 22D is narrower than third reflective member 22C. Aperture 18 is arranged approximately in the center of flattened target receptacle 10 between first and second ends 17A, 17B. Preferably, aperture 18 is positioned closer to top 13 than bottom 14. First reflective member 22A is positioned below aperture 18. Preferably, first reflective member 22A is approximately 1 inch from bottom 14. Light source 21A is arranged approximately in the center of first reflective member 22A by means of fastener 27 (not shown). Second reflective member 22B is arranged proximate second side 17B and tabs 23. Second reflective member 22B is substantially similar to third reflective member 22C. As described above, tabs 23 are substantially “T”-shaped and each tab 23 comprises an upper and lower extension 23A to engage gaps 25.

FIG. 8 depicts light rays 30 emanating from illumination assembly means 21 (not shown), which enables a user to participate in a disc throwing game at night. Four players (P1, P2, P3, and P4) are divided into teams of two. Two target receptacles 10 are placed a distance apart. Members of the same team stand at opposite goals. With illumination assembly means 21 activated, represented by light rays 30, each player can visualize target receptacles 10 at night. Each player takes turns throwing disc-shaped gliding object 20 at target receptacle 10 arranged opposite the player. Each throw is scored one, two, or three points. Additionally, a player can win instantly by throwing disc-shaped gliding object 20 through aperture 18.

A disc throwing game including the components described herein can be played by two teams of two. However, it should also be appreciated that the game can be played by two opposing teams, each team having only a single player. In an example embodiment, a disc throwing game can be played by only two players, a first player and a second player P1 and P3, respectively or P2 and P4, respectively, for example. The method of such play involves the steps of: (a) arranging first receptacle 10 and a second receptacle 10 a distance apart wherein the receptacles 10 and 10 face each other and each of the receptacles 10 and 10 includes aperture 18 and 18 and open top 13 and 13; (b) positioning first player P1 or P2 behind first receptacle 10 and second player P3 or P4 behind second receptacle 10; (c) throwing disc-shaped gliding object 20 at first receptacle 10 by second player P3 or P4; (d) tallying at least one point based on the throw by second player P3 or P4 if disc-shaped gliding object 20 hits first receptacle 10 directly; (e) declaring second player P3 or P4 a winner based on the throw by second player P3 or P4 if disc-shaped gliding object 20 lands inside first receptacle 10; (f) throwing disc-shaped gliding object 20 at second receptacle 10 by first player P1 or P2; (g) tallying at least one point based on the throw by first player Pt or P2 if disc-shaped gliding object 20 hits second receptacle 10 directly; (h) declaring first player P1 or P2 a winner based on the throw by first player P1 or P2 if disc-shaped gliding object 20 lands inside receptacle 10; and, (i) repeating steps (c) through (h) in alternating fashion until a player wins. It should be appreciated that disc-shaped gliding object 20 can hit, or make contact with, receptacle 10 on inner surface 11 or outer surface 12. Additionally, it should be appreciated, that disc-shaped gliding object 20 can land inside receptacle 10 through aperture 18 or open top 13.

FIG. 9 is an environmental view that depicts target receptacle 10 having flotation means 50 in pool 40. In a preferred embodiment, there would be two target receptacles 10 and two to four players P1, P2, P3, and P4 shown in pool 40 (not shown for simplicity). Flotation means 50 allows target receptacle 10 to float, permitting game play in pool 40, in a lake, or in any other body of water. It should be appreciated that illumination assembly means 21 (not shown) can be used with target receptacle 10 having flotation means 50 to permit night-time play in the water. Also depicted are aperture 18 and seam 26 of target receptacle 10. FIG. 10 depicts target receptacle 10 having flotation means 50. As described above, target receptacle 10 comprises aperture 18, inner wall 11, outer wall 12, first end 17A, and second end 17B. First and second ends 17A, 17B are secured together and form seam 26. First end 17A has gaps 25 (not shown) and second end 17B has tabs 23 (not shown). When the wall of target receptacle 10 is rolled, gaps 25 and tabs 23 (not shown) can be secured to form a cylinder. Further, bottom 14 of target receptacle 10 comprises protrusions 24 (not shown, described below) arranged to removably engage flotation means 50. Flotation means 50 is removable from target receptacle 10 to ensure the floatable disc throwing game is highly portable. Further, reflective members 22B, 22C, and 22D are shown attached to target receptacle 10. Reflective members 22B, 22C, and 22D are part of the illumination assembly means 21 (not shown), which enables gameplay in pool 40 (not shown) at night.

Flotation means 50 facilitates the floating of target receptacle 10 in water in a pool 40 (not shown) or some other body of water. In its preferred embodiment, flotation means 50 is constructed of high-density polyethylene (HDPE). One embodiment of flotation means 50 has a density range of 1.4-1.8 lb/ft², a cell size of 1.2 mm, and a water absorption less than 0.1 lb/ft². Any material encompassing these or similar qualities can be used to support target receptacle 10. For example, flotation means 50 could be constructed of a polyvinyl chloride toroidal ring, a laminated polyethylene foam, or a phthalate-free polyvinyl chloride toroidal ring or any other suitable shape. Further, flotation means 50 could be constructed of a plastic toroidal ring, or a closed-cell polystyrene foam.

FIG. 11 depicts the top view of target receptacle 10 having flotation means 50 as described herein. Bottom 14 of target receptacle 10 has protrusions 24 (not visible) that fit into slots 35 (not shown) in flotation means 50. Protrusions 24 and slots 35 (not shown) provide a removably secure engagement means for target receptacle 10 and flotation means 50. Light source 21A is part of the illumination assembly means 21 (not shown), which enables gameplay in pool 40 (not shown) at night. FIG. 12 depicts the bottom view of target receptacle 10 having flotation means 50. Flotation means 50 is partially cut away to show the position of target receptacle 10 in relation to flotation means 50. Target receptacle 10 could have one or more protrusions 24 to secure flotation means 50. In one embodiment, target receptacle 10 has two protrusions 24; one protrusion 24 arranged diametrically opposite another protrusion 24 (not shown). It should be appreciated that there could be more than two protrusions 24. Additionally, it should be appreciated that protrusions 24 do not have to be arranged along bottom 14 proximate where front 15 meets rear 16. Instead, protrusions 24 could be in any pattern along bottom 14. For example, protrusions 24 could be arranged proximate corners of flotation means 50 for stability. In an alternate embodiment, flotation means 50 could be cylindrical and secured to inner wall 12 of target receptacle 10 proximate bottom 14 using any suitable adhesive. In FIG. 12, only one protrusion 24 is visible where flotation means 50 is partially cut away. Protrusions 24 are rectangular in shape and arcuate; however, any shape which can removably engage slots 35 (not shown) can be used. Further, protrusions 24 protrude from bottom 14 of target receptacle 10. Light source 21A is part of the illumination assembly means 21 (not shown), which enables gameplay in pool 40 (not shown) at night.

FIG. 13 depicts the front view of target receptacle 10 having flotation means 50 and disc-shaped gliding object 20. Front 15 of target receptacle 10 has aperture 18. Flotation means 50 is wider than target receptacle 10.

FIG. 14 shows a rear view of target receptacle 10 having flotation means 50 as shown in FIG. 13. Target receptacle 10 comprises one tab 23 and two gaps 25 to accommodate the extensions of tab 23. Again, it should be appreciated that in this embodiment target receptacle 10 could have more than one tab 23 and more than two gaps 25. When gaps 25 and tab 23 are engaged, seam 26 is formed. Flotation means 50 forms a rectangular prism. The combination of a rectangular floatation means 50 and cylindrical target receptacle 10 prevents the target from spinning in the water. It should be appreciated that flotation means 50 could take any other suitable shape to allow target receptacle 10 to float and prevent flotation means 50 from spinning. Preferably, flotation means 50 is wider than the diameter of cylindrical target receptacle 10; however, flotation means 50 could have the same circumference as target receptacle 10.

FIG. 15 depicts the left side of target receptacle 10 having flotation means 50. The curvature of aperture 18 located within front 15 of target receptacle 10 can be appreciated. Additionally, it should be appreciated that the diameter of target receptacle 10 is smaller than the width of flotation means 50. Seam 26 obstructs any view of tab 23 or gaps 25 (not shown) because first end 17A (not shown) is tucked behind second end 17B proximate tab 23 (not shown). FIG. 16 depicts the right side of target receptacle 10 with flotation means 50. From this view, first end 17A is shown. Further, tab 23 is shown protruding into gaps 25. When tab 23 and gaps 25 are engaged, seam 26 is formed. Also depicted is aperture 18 of target receptacle 10.

A partial exploded view of target receptacle 10 having flotation means 50 is shown in FIG. 17. Target receptacle 10 is removably attached to flotation means 50 by protrusions 24 and slots 35. Protrusions 24 are made of the same plastic film as target receptacle 10. Slots 35 are partial through-bores protruding into the laminated polyethylene foam of flotation means 50. Slots 35 receive protrusions 24. When slots 35 and protrusions 24 are engaged, inner wall 11 and outer wall 12 of target receptacle 10 are perpendicular to the top plane of flotation means 50. Other means of engaging target receptacle 10 and flotation means 50 can be used; for example, hook and loop fasteners, or strapping could engage target receptacle 10 and flotation means 50. Further, target receptacle 10 can be permanently attached to flotation means 50. Also depicted is aperture 18 of target receptacle 10. Further, reflective members 22B, 22C, and 22D are part of illumination assembly means 21 (not shown), which enables gameplay in pool 40 (not shown) at night.

Thus, it is seen that the objects of the present invention are efficiently obtained, although modifications and changes to the invention should be readily apparent to those having ordinary skill in the art, which modifications are intended to be within the spirit and scope of the invention as claimed. It also is understood that the foregoing description is illustrative of the present invention and should not be considered as limiting. Therefore, other embodiments of the present invention are possible without departing from the spirit and scope of the present invention.

REFERENCE NUMERALS

• 10 receptacle
• 11 inner wall
• 12 outer wall
• 13 top
• 14 bottom
• 15 front
• 16 rear
• 17A first end
• 17B second end
• 18 aperture
• 20 disc-shaped gliding object
• 21 illumination assembly means
• 21A light source
• 22A first reflective member
• 22B second reflective member
• 22C third reflective member
• 22D fourth reflective member
• 23 tabs
• 23A extensions
• 24 protrusions
• 25 gaps
• 26 seam
• 27 fastener
• 28 housing button
• 29 fastening means
• 30 rays
• 35 slots
• 40 pool
• 50 flotation means
• P1 player
• P2 player
• P3 player
• P4 player

Claims

1. A target for a disc throwing game, comprising:

at least one receptacle having a wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

an illumination means secured to said inner surface of said wall; and,

a first reflective member secured to said inner surface of said wall, operatively arranged to reflect light from said illumination means through said at least one aperture.

2. The target recited in claim 1, wherein said at least one receptacle comprises at least one portion of said inner wall is of a color which substantially absorbs light and at least one portion which is reflective of light.

3. The target recited in claim 1, wherein said illumination means is an LED.

4. The target recited in claim 1, wherein said illumination means is an incandescent light.

5. The target recited in claim 1, wherein said illumination means is secured to said inner surface of said wall below said at least one aperture.

6. The target recited in claim 1, wherein said first reflective member is disposed proximate to and circumscribing said illumination means.

7. The target recited in claim 6, further comprising a second reflective member secured to said inner surface of said wall, operatively arranged to reflect light from said illumination means through said at least one aperture, said second reflective member disposed diametrically opposite said illumination means.

8. The target recited in claim 1, wherein said wall forms a cylindrically shaped target.

9. A target for a disc throwing game, comprising:

at least one receptacle having a wall, said wall having at least one aperture therein; and,

a flotation member fixedly secured to said receptacle.

10. The target recited in claim 9, wherein the aperture is a slot.

11. The target recited in claim 9, wherein said wall forms a cylindrically shaped target.

12. The target described in claim 9, wherein said flotation member is constructed of laminated polyethylene foam.

13. The target described in claim 9, wherein said flotation member is constructed of polyvinyl chloride.

14. A target for a disc throwing game, comprising:

at least one receptacle having a wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

an illumination means secured to said inner surface of said wall;

a first reflective member secured to said inner surface of said wall, operatively arranged to reflect light from said illumination means through said at least one aperture; and,

a flotation member fixedly secured to said receptacle.

15. The target recited in claim 14, wherein said at least one receptacle comprises at least one portion of said inner wall is of a color which substantially absorbs light and at least one portion which is reflective of light.

16. The target recited in claim 14, wherein said illumination means is an LED.

17. The target recited in claim 14, wherein said illumination means is secured to said inner surface of said wall below said at least one aperture.

18. The target recited in claim 14, wherein said first reflective member is disposed proximate to and circumscribing said illumination means.

19. The target recited in claim 18, further comprising a second reflective member secured to said inner surface of said wall, operatively arranged to reflect light from said illumination means through said at least one aperture, said second reflective member disposed diametrically opposite said illumination means.

20. The target recited in claim 14, wherein said wall forms a cylindrically shaped target.

21. The target described in claim 14, wherein said flotation member is constructed of laminated polyethylene foam.

22. The target recited in claim 14, wherein said flotation member is constructed of a high-density polyethylene.

23. A disc throwing game assembly, comprising:

a first receptacle having a first wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

a second receptacle having a second wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

a disc-shaped gliding object;

an illumination means secured to said inner surface of said walls of said first and second receptacles; and,

a first reflective member secured to said inner surface of said walls of said first and second receptacles operatively arranged to reflect light from said illumination means through said at least one aperture.

24. The disc throwing game assembly recited in claim 23, further comprising a flotation member fixedly secured to said first and second receptacle.

25. The disc throwing game assembly recited in claim 23, wherein said illumination means is an LED.

26. The disc throwing game assembly described in claim 24, wherein said flotation member is constructed of laminated polyethylene foam.

27. The disc throwing game assembly described in claim 24, wherein said flotation member is constructed of polyvinyl chloride.

28. A disc throwing game assembly, comprising:

a first receptacle having a wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

a second receptacle having a wall, said wall having an inner surface and an outer surface, and at least one aperture therein;

a disc-shaped gliding object;

a first flotation member fixedly secured to said first receptacle; and,

a second flotation member fixedly secured to said second receptacle.

29. The disc throwing game assembly described in claim 28, wherein said first and second flotation member is constructed of laminated polyethylene foam.

30. The disc throwing game assembly described in claim 28, wherein said first and second flotation member is constructed of polyvinyl chloride.

31. The disc throwing game assembly recited in claim 28, further comprising an illumination means secured to said inner surface of said wall of said first and second receptacle.

32. The disc throwing game assembly recited in claim 31, further comprising a first reflective member secured to said inner surface of said wall of said first and second receptacle, operatively arranged to reflect light from said illumination means through said at least one aperture.

33. The disc throwing game assembly recited in claim 31, wherein the inner wall of said first and second receptacle is of a color which substantially absorbs light and at least one portion which is reflective of light.

34. The disc throwing game assembly recited in claim 31, wherein said illumination means is an LED.

35. The disc throwing game assembly recited in claim 31, wherein said illumination means is secured to said inner surface of said wall below said at least one aperture.

36. The disc throwing game assembly recited in claim 32, wherein said first reflective member is disposed proximate to and circumscribing said illumination means.

37. The disc throwing game assembly recited in claim 32, further comprising a second reflective member secured to said inner surface of said wall, operatively arranged to reflect light from said illumination means through said at least one aperture, said second reflective member disposed diametrically opposite said illumination means.

38. The disc throwing game assembly recited in claim 28, wherein said wall forms a cylindrically shaped target.

39. A target for a disc throwing game, comprising:

a receptacle having at least one aperture therein; and,

an illumination means secured to said receptacle operatively arranged to transmit light.

40. The target receptacle of claim 39, wherein said receptacle reflects light.

41. The target receptacle of claim 39, wherein said receptacle is translucent.

42. The target receptacle of claim 39, wherein said illumination means is an LED.

43. The target receptacle of claim 39, wherein said illumination means is fiber optic.

44. A method of playing a disc throwing game where said game is played by only two players, a first player and a second player, comprising the steps of:

(a) arranging a first receptacle and a second receptacle a distance apart wherein said receptacles face each other and each of said receptacles comprises an aperture and an open top;

(b) positioning said first player behind said first receptacle and said second player behind said second receptacle;

(c) throwing a disc-shaped gliding object at said first receptacle by said second player,

(d) tallying at least one point based on said throw by said second player if said disc-shaped gliding object hits said first receptacle directly;

(e) declaring said second player a winner based on said throw by said second player if said disc-shaped gliding object lands inside said first receptacle;

(f) throwing said disc-shaped gliding object at said second receptacle by said first player;

(g) tallying at least one point based on said throw by said first player if said disc-shaped gliding object hits said second receptacle directly;

(h) declaring said first player a winner based on said throw by said first player if said disc-shaped gliding object lands inside said receptacle; and,

(i) repeating steps (c) through (h) in alternating fashion.