Golfrisbee: swiveling club to launch flying disk to fly

Abstract

The golfrisbee sport is to launch the golfrisbee to fly into a portable golfrisbee basket or push the golfrisbee mounted on a universal put and hole to roll into a cavity. The golfrisbee emulates the human throwing process to launch the disk to fly. Swiveling golfrisbee pole to rotate golfrisbee disk to have frictionless take-off launching, the screw provides the frictionless lock, frictionless launch and frictionless take-off depending on the specified screw position. As the disk rotates due to the eccentric force, the disk automatically launches and takes off to fly at the specified position. The golfrisbeer swivels the club to launch the golfrisbee to fly. The golfrisbee is launched to fly with the waist force to swivel the club at very high speed. With the high-speed swiveling club, the golfrisbee flies much farther and higher than the hand-throwing flying disk does. The complicated throwing process of human brain and hand cooperation mechanism is emulated with the simple screw mechanism. With the screw mechanism, we make the technology breakthrough in the swivel-to-launch technology. As the golfrisbeer swivels the club, the golfrisbee disk automatically rotates due to the eccentric force. As the club reaches the designated launching point, the golfrisbee automatically takes off and launches to fly in the sky. With the integrated multimedia device, the rainbow-like shining light and whistling harmonic sound make the golfrisbee much more fun to play with. Furthermore, reverse the club and upside down of the golfrisbee, the golfrisbee can be pushed to skid into the hole as the ice hockey does. Therefore, without any new special facility, the golfrisbee sport is the combination of the golf, flying disk, baseball, ice hockey, etc. Golfrisbee is a market-pull product and technology—the market is already there and no proper product. It provides the repeatable, accurate, far away throw with frictionless take-off of flying disk with the swiveling of pole. Therefore, the golfrisbee is proposed to be and will be the standard of the disk-golf sport.

Description

[0001] This is a continue-in-part of the application Ser. No. 09/945,968 which was filed Sep. 4, 2001.

BACKGROUND OF THE INVENTION

[0002] The golfrisbee sport, as shown in FIG. 1, is to swivel the golfrisbee club to increase the throwing distance and flying height of the golfrisbee disk. The inventors make the technology breakthrough in the swivel-to-launch techniques to make the dream of Golfrisbee become true. To differentiate from the hand-throwing “disk-golf” game, we call this new game to be golfrisbee. The player of disk-golf is disk-golfer. The player of golfrisbee is golfrisbeer. As shown in FIG. 3, in the golfrisbee sport, the golfrisbeer swivels the golfrisbee club to launch the golfrisbee disk to fly. For convenience, the golfrisbee disk is simply referred as golfrisbee. The golfrisbee club is simply referred as club. The sport of golfrisbee is also mentioned as golfrisbee.

[0003] In our invention, there are no moving parts on the golfrisbee pole and there is no electrical motor and battery on the golfrisbee pole. As shown in FIG. 3, the swivel of pole generates the eccentric force to rotate the disk. As shown in FIG. 4, the rotating disk rotates on the screw head and automatically take-off from the frictionless lock of the screw head. As shown in FIG. 5, due to the tangential speed of the swiveling pole, the flying disk has high swiveling speed. As shown in FIG. 3C, as the flying disk takes off from the screw head, it launches to fly in the sky immediately. All the disk power of rotation and fly in the above process comes from the hand swiveling. There is no need for the electrical motor and battery at all.

[0004] The launching disk to fly process cannot have any grab or clamping force. Just as the airplane taking off process, any grab or clamping force is constituted of the blocking holdup to the airplane that the airplane will be dragged by the blocking holdup and falling to the ground as the airplane crash disaster. It takes a long time to learn this lessen that launch flying disk to fly cannot have any moving parts to clamp or grab the flying disk. The clamping and grabbing disk constituting of the holdup blockade makes a lot of previous inventions fail to work.

[0005] My invention doesn't need the battery and electrical motor at all. As shown in FIG. 3, due to the eccentric force, swiveling the pole, the disk will rotate automatically. With the fast swiveling movement and the automatic rotation of disk, the disk will take off to fly. This pole throwing disk process is just as the same as human using the hand to throw the disk to fly. With our new invention, the disk golfer can throw the flying disk more than 1500 feet to 2000 feet away. It breaks the Guinness' record of the farthest distance the human can throw. The process is accurate and repeatable and throwing much far away than human's hand does. It is compatible to and superior to today's golf sport.

[0006] As shown in FIG. 1, golfrisbee is the hybrid game combining the sports of golf, flying disk, baseball, and hockey together to be a new game. The player swivels the golfrisbee club as the golfer or baseball player does. The golfrisbee disk is launched to fly as the flying disk does. The golfrisbee game rule is the same as golf. The disk can also be pushed to roll as the golf does or be pushed to skid as the hockey does on the ice.

[0007] Being similar to golf history, originally, human uses the hand to throw the stone. To increase the throwing distance, people swivel the long pole/club to hit the stone/golf ball. Today, the disk-golfer still uses the hand to throw the flying disk to fly. To increase the flying distance, as shown in FIG. 1, people should swivel the pole to launch the flying disk to fly. However, due to the technology barrier of swiveling to launch, the dream of disk-golf never becomes true. The process of launching disk to fly with the swiveling pole cannot have any blockade force of grabbing force or clamping force, etc. Just as the airplane taking off process, any grabbing or holding force will be constituted of the blocking blockade to the airplane that the airplane will be hit by the blocking blockade and falling to the ground as the disaster of airplane crash. It takes a long time to learn this lessen. It makes all the previous inventions of flying disk fail to work. So, until now, instead of launching the flying disk with the long pole, the disk-golfer still uses the hand to throw the flying disk. The throwing distance is short. The disk-golf is only adopted the form of golf. However, there is no reality of disk golf, i.e., swiveling pole to launch the disk to fly for a long distance.

[0008] As shown in FIG. 1, the golfrisbee combines the merits of golf, baseball, and flying disk. Even much better, it is safer and more fun to play. The golf and baseball are dangerous sports that they need special places to play, i.e., the golf court or baseball field. As the golf ball or baseball hits on the head of people, it will kill people. So, the dangerous golf sport is forbidden to play in the public park. However, you can play the flying disk in the park. The high fly disk is not dangerous. The flying disk drifts smoothly with soft-landing. It will not hurt anybody. You cannot see the golf ball as the golf ball flies high in the sky. However, for the golfrisbee player, you will enjoy seeing the flying disk drifting in the sky.

[0009] As shown in FIG. 1, our invention is the only invention having no moving parts to swivel the disk to fly with pole frictionlessly. The process is accurate and repeatable and throwing much farther away than human's hand does. Furthermore, the golfrisbee player no more throws and catches the golfrisbee disk with hand. Therefore, it is safe to add the advanced multimedia device and lifting blades to the golfrisbee disk. The golfrisbee disk can generate the high lift with harmonic sound and shiny rainbow light as the golfrisbee glides in the sky. With our new invention, the disk golfer can throw the flying disk more than 1500 feet to 2000 feet away. It breaks the Guinness' record of the farthest distance the human can throw. None of the previous patent can provide such kind unexpected results.

BACKGROUND-DESCRIPTION OF PRIOR ART

[0010] The name of disk-golf is very similar to the name of golfrisbee. However, the name of the disk-golf is not proper. The disk-golf is not any kind of golf sport at all. The disk-golf does not use the club. The disc golf only uses the form golf rule. Instead of swiveling club to increase the disk flying range, the disk-golfer still uses the hand to throw a disc from a tee pad to a basket on a pole. The disk-golf has to use the special nets to catch the flying disk. The score is based on the number of throws it takes to get the disc to land in the basket.

[0011] No golf club, golf is no more a golf sport. It is a stone-golf. It just throws the golf ball with hand. Stone-golf has no fun. It is funny. The stone golf is an unfair game, either. For the stone-golf, the stone-golfer uses the hand to throw the stone to play golf. Whoever is stronger will win the game.

[0012] Disk-golf is similar to stone-golf. No club, the disk-golf is no more disk-golf. The disk-golfer still throws the disk with hand. It has no fun, either. As our golfrisbee sport becomes popular, it is hardly believe that the disk-golf will survive any more.

[0013] However, using key words “disk-golf” to search on the Internet, it is easily to find out millions of web sites addressing on disk-golf. It is a hot sport. Therefore, Golfrisbee is a market-pull product and technology. The market is already there. However, there is no proper product and suitable technology to fit for the requirements of the demanding market. Definitely, our golfrisbee is the right market-pull product for the demanding market. The consumers have waited for our golfrisbee for a long time. However, due to the technology barrier of swiveling-to-fly, until now, no body can invent such a simple mechanism to emulate the complicated process of human's throwing disk to fly. Therefore, people have to accept the disk-golf sport as a poor substitutive solution. Disk Golfers suffered from the inability to have swiveling pole to launch light flying disk having long range flying capability. The present invention provides there features, thereby solving a long-felt need in this area. So far, the disk golfers still use the hand to throw the fly disk for more than 20 years. The industry cannot deliver the golf club to launch the flying disk. Now, with our new invention, the disk golfer can play the flying disk as the golfer does.

[0014] Our first inventor had invented U.S. Pat. No. 6,193,620, the multi-media Frisbee-golf. It is the first patent to use the swivel techniques to launch a disk to fly. Comparing our invention with previous patents, as shown in FIG. 2 and FIG. 3, our invention is to use a simple screw mechanism to emulate human's throwing disk process. In our invention, swiveling golfrisbee pole to rotate golfrisbee disk features to have frictionless take-off launching, as shown in FIG. 2 and FIG. 3, there is no moving part on the golh club. In our new invention, the disk center is not coincident with the head of the pole. Swiveling the pole, the eccentric force will automatically rotate the disk to rotate. The rotation causes the disk to disengage with the screw of the pole to take off and fly. This is frictionless take off process that the disk will fly far away. All the other patents have the moving parts inducing the friction to blockade the disk to launch to fly. Their patents have the moving parts to grasp or clamp the flying disk that the flying disk falls to ground like the crash of airplane. The grasping or clamping blockade force cause the disk cannot fly far away, cannot have accurate throw and cannot have the repeatable performance. Other inventions have very complex mechanical moving parts. Those moving parts either grasp or lock with biasing forces. There is no perfect releasing mechanical mechanism that the moving parts contribute the blocking blockade to the taking off disk. The taking off disk will turn over and falls to the ground in a very short distance. As shown in FIG. 2 and FIG. 3, we make the technology breakthrough in the emulation of human throwing flying disk to fly. It is the most efficient way to launch the flying disk with our golfrisbee club.

[0015] Furthermore, we make the system integration of the swivel-to-launch technology with golf to be the sport of golfrisbee. The golfrisbee sport is similar to the golf. The golfer swivels the golf club to hit the ball to fly or push the ball to roll into the hole. As shown in FIG. 1, the golfrisbeer swivels the golfrisbee club to launch the golfrisbee disk to fly or push the disk to roll or skid with club into the hole.

OBJECTS AND ADVANTAGES

[0016] As shown in FIG. 1, swivel-to-launch with club increases the flying distance of the disk. A new golfrisbee and a new golfrisbee sport are invented: swiveling golfrisbee pole to rotate golfrisbee disk to have frictionless take-off launching. As shown in FIG. 2, it doesn't need any power device such as electrical motor and battery. As shown in FIG. 3, during the swivel of pole, the eccentric force automatically rotates the disk to rotate and launch the disk to fly.

[0017] We have built a prototype for this invention. As shown in FIG. 2, there is no moving mechanical part in our new invention. With the prototype, we make the demonstration for the golfrisbee. Our invention doesn't need any power device such as electrical motor and battery. During the swivel of pole, the eccentric force automatically rotates the disk to rotate and launch the disk to fly. As shown in FIG. 3, swiveling the golfrisbee club, the golfrisbee disk automatically rotates and takes off to fly in the sky without the electrical battery and electrical motor. The golfrisbee club is one integrate unit. Other inventions have very complex mechanical moving parts. Those moving parts either grasp or are biased with biasing forces to clamp the flying disk. However, there is no perfect releasing mechanical mechanism for those grasp and clamp that the moving parts contribute the blocking blockade to the flying disk during the taking off of flying disk. The taking off disk will turn over in the air and falls to the ground in a very short distance.

[0018] As shown in FIG. 1 and FIG. 7, golfrisbee is the combination of the baseball, golf, flying disk, and hockey together to be a new sport. The golfrisbee is similar to golf. The golfrisbeer swivels the club to launch the golfrisbee to fly. However, the safe golfrisbee sport can play in the park. Even one single player still can play and practice the golfrisbee sport in the park safely. It converts the conventional disk-golf to be the golfrisbee. The integrated multimedia device can be embedded in the golfrisbee to have the attracting and interesting multimedia effect.

[0019] The inventors have built a prototype and made many experiments. As we expect, the golfrisbee disk flies much farther, much higher and much better than the hand-throwing flying disk. Furthermore, the flying performance of golfrisbee is steady and repetitive. The golfrisbee always makes the successful flight each time.

[0020] It is well known that the human player cannot repeat the same performance every time. The golfrisbee does not have the unsteady problems as hand-throwing flying disk has. The reason is the launching parameters such as angle, speed, direction, etc. have been cast in the golfrisbee. These parameters have very narrow working ranges. The human cannot repeat all these narrowly ranged parameters all the time. However, as shown in FIG. 4, FIG. 5, FIG. 6, FIG. 13, FIG. 14 and FIG. 15, all these narrowly ranged parameters are calibrated and cast in the basic golfrisbee club and disk. As the golfrisbeer swivels the club, these parameters repeat the same values all the time. Therefore, the golfrisbee has much better performance than the hand-throwing flying disk.

[0021] My invention is the only invention having no moving parts to swivel the disk to fly with pole frictionlessly. The process is accurate and repeatable and throwing much far away than human's hand does. All the other patents have the moving parts inducing the friction to blockade the disk to launch to fly. Their patents have the moving parts to grasp or clamp the flying disk that the flying disk falls to ground like the crash of airplane. The grasping or clamping blockade force cause the disk cannot fly far away, cannot have accurate throw and cannot have the repeatable performance. With our new invention, the disk golfer can throw the flying disk more than 1500 feet to 2000 feet away. It breaks the Guinness' record of the farthest distance the human can throw. The process is accurate and repeatable and throwing much far away than human's hand does. It is compatible to and superior to today's golf sport. None of the previous patent can provide such kind unexpected results.

[0022] Therefore, the adjustment of these parameters is very important. For the basic golfrisbee club and disk, the manufacture will use the model casting process to fix all the parameters to be the optimum values. The beginner golfrisbeer does not need to calibrate these parameters. For the customized golfrisbee, the expert golfrisbeer can make the fine tune and adjustment to his personal preference.

[0023] Furthermore, as shown in FIG. 1, the golfrisbee does not need the special net equipment as the disk-golf does. The only modification for the traditional golf course is to enlarge the hole of golf ball to be the hole of golfrisbee disk. However, even this tiny modification can be optional. The golfrisbee disk can play as either hockey disk or flying disk. Therefore, the golfrisbee can share the same golf course with golf. The golfrisbee sport uses many different kinds of golfrisbee clubs and many different kinds of golfrisbee disks. As the golfrisbee becomes popular, a new industry will emerge. We create new market chances for the manufacturers and the owners of the golf courses.

DRAWING FIGURES

[0024] FIG. 1 is the disk golf sport using the swivel of golh club to launch the golfrisbee disk to fly. As the golfrisbee disk falls into the portable golh disk basket, it is equivalent to the golfball rolls into the hole.

[0025] FIG. 2 is the mounting operations of the golfrisbee; (2A) mounting the golfrisbee on the club head; (2B) rotating golfrisbee half cycle with the club head being pivotal center to have the golfrisbee to be in the locked position;

[0026] FIG. 3 is the swivel of golh club to launch the golfrisbee to fly; (3A) swiveling the golfrisbee club backward slowly; (3B) swiveling the golfrisbee club forward fast to launch the golfrisbee disk; (3C) at the designated launching point, the golfrisbee disk takes off and flies in the sky.

[0027] FIG. 4 is the mechanism study of the golfrisbee operation; (4A) mounting the golfrisbee on the golh club; (4B) rotating 180 degree to engage the golfrisbee with the golh club; (4C) swivel the golh club to launch the golfrisbee to fly.

[0028] FIG. 5 is the vector analysis of the mechanism of the swiveling the golh club to launch the golfrisbee to fly.

[0029] FIG. 6 is the detailed analysis of the launching of the golfrisbee; (6A) is the golfrisbee is too late to launch the golfrisbee to fly; (6B) is the optimum launching angle to launch the golfrisbee to fly; (6C) is too early to launch the golfrisbee to fly.

[0030] FIG. 7 is to use the golfrisbee club to push the golfball or golfrisbee to roll into the holes; (7A) is to use the golh club to push the golfball to roll into the universal portable put & hole; (7B) is to use the golh club to push the golfrisbee to roll into the golfrisbee hole with the golfrisbee be mounted on the universal portable put & hole being put.

[0031] FIG. 8 is the portable golfrisbee basket; (8A) is the standing position of the portable golfrisbee basket; (8B) is the portable pack form of the portable golfrisbee basket.

[0032] FIG. 9 is the universal portable put and hold means which is a portable put for golfrisbee and portable hole for golfball; (9A) is the view of portable put of golfrisbee; (9B) is the sectional view of the portable put for golfrisbee; (9C) is the plug to convert the portable put to be the portable hole for the golfball.

[0033] FIG. 10 is the screwless golh club and screwless golfrisbee made of the free dangling fast release snapping means; (10A) is the screwless golfrisbee; (10B) is the side view of the screwless golh head; (10C) is the front view of the screwless golh head; (10D) is the bottom view of the screwless golfrisbee disk.

[0034] FIG. 11 is the basic golfrisbee made of free dangling fast release screw means; (11A) is the sectional view of the basic golfrisbee disk; (11B) is the side view of the basic golfrisbee club; (11C) is the bottom view of the basic golfrisbee disk.

[0035] FIG. 12 is the analytical mechanism for the conventional single thread screw which fails to be the screw mechanism of the golfrisbee; (12A) is the top view of the conventional single thread screw; (12B) is the side view of the conventional single thread screw; (12C) is the generation of the overturning momentum; (12D) is the stall of the golfrisbee during the flight.

[0036] FIG. 13 is the analytical mechanism for the dual-half ring screw which is essential to be the screw mechanism of the golfrisbee; (13A) is the top view of the dual-half ring screw; (13B) is the side view of the dual-half ring screw; (13C) is the generation of the counting momentum to cancel the overturn momentum to keep the golfrisbee to be in the horizontal attitude during the launching process; (13D) is the golfrisbee keep the horizontal attitude to fly in the sky without the stall generating by the overturning momentum.

[0037] FIG. 14 is the comparison study of the golfrisbee screw mechanism with the conventional screw mechanism made of cap and bottle; (14A) the complete scheme of the screw mechanism; (14B) is the screw mechanism of the golfrisbee; (14C) is the screw mechanism of the head of the golh club; (14D) is the screw mechanism of the conventional cap; (14E) the screw mechanism of the conventional bottle.

[0038] FIG. 15 is the open platform of customized golfrisbee with different kinds of launching screw and weight systems; (15A) is the linear launching screw mechanism; (15B) is the jumping type nonlinear launching screw mechanism; (15C) is the speedy type nonlinear launching screw mechanism.

[0039] FIG. 16 (16A) is the sectional view of customized golfrisbee is the open platform for the different screw mechanism; (16B) is the personalized golfrisbee is the open platform for both adjustable weight and different screw mechanism; (16C) the adjustable weight is a unit package to be replaced; (16D) the weight in the weight packet can be adjustable; (16E) is the partial exposure view of the customized golfrisbee club.

[0040] FIG. 17 is the partially exposed sectional view of the universal golfrisbee disk and the universal golfrisbee club; (17A) is the sectional view of the universal golfrisbee disk; (17B) is the partial exposure of right-hand golfrisbee club; (17C) is the partial exposure of left-hand golfrisbee club; (17D) is the bottom view of the universal golfrisbee disk.

[0041] FIG. 18 is the adjustable golfrisbee with the fitting cap position being adjustable from the middle to the rim; (18A) is the sectional view taken at the line A-A in FIG. 11C; (18B) is the motor enhanced golfrisbee club for the adjustable golfrisbee disk; (18C) is the bottom view of the adjustable golfrisbee disk.

[0042] FIG. 19 is the partially exposed sectional view of the helicopter type of golfrisbee; (19A) is the helicopter type golfrisbee; (19B) is the helicopter type golfrisbee club.

[0043] FIG. 20 is the partially exposed sectional view of the pick & throw golfrisbee club.

[0044] FIG. 21 is the integrated multimedia device for the golfrisbee; (21A) is the sectional view of the integrated multimedia device; (21B) is side view of the integrated multimedia device; (21C) is the top view the integrated multimedia device.

DESCRIPTION AND OPERATION

[0045] The flying disk is very difficult to launch to fly. The human throwing to fly is the only efficient way to launch the flying disk to fly. However, the human arm is short. The force of human arm is weak. Therefore, the flying distance is short. To increase force, we use the waist force. To increase speed, as shown in FIG. 1, we swivel a golh club to launch the flying disk to fly. In other words, to increase the flying distance, as the golf does, we need swivel the club to launch the flying disk. It will increase both the swiveling force and speed.

[0046] In FIG. 1, swiveling the golh club 2 to launch the golfrisbee 1 to fly into the portable golfrisbee basket 4. The golh club is also can use to push the golfball to roll into the universal portable put & hole 6. The most difficult challenge of the swivel-to-fly technology is to use the pole to emulate the human throwing-to-fly process. However, the human hand is the most complicated and delicate mechanism with the most sophisticated controller, brain. The combination of the human hand and brain, it is almost impossible to emulate such complicated human throwing process with a simple mechanism. The most important issue is the simple mechanism needing to grasp the disk tightly before the launch and suddenly release the disk at the designated launching position. Usually, the designated launching position is the club being swiveled at the highest speed. It is an impossible mission to emulate the human hand and brain with a simple mechanism. Furthermore, to be practical, the simple mechanism has no moving part. The simple mechanism is sturdy. Otherwise, it will be easily broken in the high-speed operation of the club. That is the reason why the conventional disk-golf sport still uses the hand-throwing flying disk to play the golf-disk sport. They cannot overcome the technology barrier to have a simple, efficient and practical way to swivel and launch the flying disk.

[0047] So, until now, there is no disk-golfer using the pole to launch the disk to fly. We are the only team dedicating our efforts to make the golfrisbee dream to become true. After a lot of trials and tests, finally, we make a breakthrough in concept and we have built a prototype to launch the disk to fly with the club. We have verified the innovative idea with the prototype to make the golfrisbee dream to become true. The verified innovative ideas and efforts becomes the core of our invention.

[0048] We have built many prototypes and made field tests for these prototypes successfully. As shown in FIG. 2, the working principle of the swiveling-to-launch-to-fly golfrisbee is to use the simple screw mechanism to emulate the complex human throwing way to launch the flying disk. As shown in FIG. 2A, the golfrisbee 1b is mounted on the head of the golh club 2b with the screw type mechanism 11b. Rotating 180 degrees as shown in FIG. 2B, the golfrisbee is mounted on the head of golh club. The screw mechanism is simple and having no moving part. The invention of frictionless lock and launch means of screw was the most important invention in history. However, nobody think the frictionless lock and launch means of screw mechanism has such kind an important application which can emulate the complex process of human throwing disk to fly. As shown in FIG. 3A, the golh club starts to swivel the golfrisbee. Due to the initial momentum being static, the golfrisbee 1b rotates counterclock relative to the head 3b of the golh club 2b. Due to the eccentric force of the swiveling circle of the golh club 2b, the golfrisbee is swiveled to the outside straight line position of the golh club 2b. At the outside straight position of the golh club, the golfrisbee being launched to fly in the sky as shown in FIG. 3C.

[0049] The golfrisbee sport includes two components, the golfrisbee disk, and the golfrisbee club. FIG. 2, FIG. 3 and FIG. 7 illustrate the operations of golfrisbee. For the screw type golfrisbee as shown in FIG. 11, as shown in FIG. 2A, the golfrisbee disk is mounted on the head of golh club. Then, as shown in FIG. 2B, rotating the golfrisbee disk 180 degrees to engage the screw of golfrisbee disk with the screw of the head of the golh club.

[0050] As shown in FIG. 4, it makes the analytical mechanism study of the golfrisbee. FIG. 4A shows the golfrisbee 1 being mounted on the golh club 2 with the same position of the launching point of the golfrisbee. Rotating golfrisbee 180 degrees clockwise, as shown in FIG. 4B, the golfrisbee being engaged with the head of the golh club 2 and free dangling on the head of the golh club 2. Swiveling the golh club 2, the golfrisbee 1 rotates counterclockwise to reach the launching point and is ready to be launched as shown in FIG. 4C. At the launching point, FIG. 5 shows the golfrisbee having the tangential speed V and the angular momentum M. FIG. 6 shows the angular positions of the effects of the different launching point. FIG. 6A shows the launching point is too early to launch the golfrisbee. FIG. 6B shows the optimum launching point to launch the golfrisbee. FIG. 6C show the launching point is too late to launch.

[0051] As shown in FIG. 1 and FIG. 7, the hybrid golh has the combination of the golfrisbee to fly as flying disk and the golfball or golfrisbee rolls as the golf does as shown in FIG. 7. As shown in FIG. 7A, using the same golh club 2b, the golfball is pushed to roll into the hole of the universal put & hole 6. As shown in FIG. 7B, the golfrisbee 1b is mounted on the universal put & hole 6 being served as golfrisbee put. Pushing the golfrisbee 1b with the golh club 2b, the golfrisbee 1b being pushed to roll into the golfrisbee cave 122b.

[0052] As shown in FIG. 1, the disk golf type golfrisbee is to swivel the golh club 2 to launch the golfrisbee disk 1 to fly into the portable golfrisbee basket 4. In the golfrisbee course, there are eighteen portable golfrisbee baskets 4 which are corresponding to the eighteen holes of the golf course. There are versatile designs of the portable golfrisbee basket 4. As shown in FIG. 8a, the portable golfrisbee basket has the net 40 woven on the cantilever 41. The cantilevers 41 have the flexible strings 42 supported. The flexible strings 42 are hinged between the cantilevers and the top support 4a of the pole of the portable golfrisbee basket 4. The ends of the cantilevers are hinged at the free sliding ring 4c. There is a stop ring 4b to stop the upward slide of the free sliding ring 4c. The upper pole 4d can slide in the lower pole 4f and is locked with the locking ring 4e. As the screw of the locking ring 4e is tighten, the upper pole 4d is locked. The tripod 43 is hinged against the sliding ring 4g with the end bias 432 biasing against the sliding ring. The locking ring 4h is pivotally mounted at the end of the lower pole 4f. As the locking ring 4h is engaged with the sliding ring 4g, the portable golfrisbee basket 4 can stand as the tripod does. The golfrisbee basket will spread out automatically. The flexible strings 42 and the cantilevers 41 can free move to absorb the impact of the golfrisbee. As shown in FIG. 8B, the portable golfrisbee basket can be easily packed up for carry. Just releases the engagement of the lock ring 4h and release the locking ring, the portable golfrisbee basket 4 can be packed up.

[0053] FIG. 9A shows the universal portable put and hold means 6. The universal put & hole 6 is the put for golfrisbee and the hole for the golfball. The hole 60 is for the golfball to roll into it. The removable plug 61 is to convert the universal put & hole 6 to be the put for the golfrisbee. As shown in FIG. 7B, remove the plug 61, the golfrisbee disk can be mounted on the put to push to roll into the golfrisbee cave 122b.

[0054] FIG. 10 is the basic screwless golfrisbee made of the mechanism of free dangling fast release snapping means. The screwless golfrisbee mechanism is based on the principle as shown in FIG. 5. In FIG. 5, the golfrisbee will rotate 180 degrees with angular momentum M. At the launching point, the golfrisbee will take off along the tangent line with velocity V. The screwless golfrisbee has one advantage over the screw type golfrisbee that the golfrisbee is not necessary to mount at the launching point. The screwless golfrisbee 1d can be mounted at any angle on the head 3d of golh club 2d. The golfrisbeer just slaps the head 3d of the golh club 2d into the cylindrical cavity 11d. The wedge shape snapping teeth 32d will hold the flat cylindrical head 34d of the golh club 2d. There is a vertical slot 10d on the wall of cylindrical cavity 11d. As the golfrisbee rotates 180 degrees due to the eccentric force, at the launch point, the vertical slot is located on the tangent line of the swiveling circle as shown in FIG. 5. The flat cylindrical head 3d of golh club 2d will slip out of the cylindrical cavity 11d of the golfrisbee. The golfrisbee 1d disengages with the golh club 2d and is launched to fly in the sky.

[0055] FIG. 17 is the value-added universal golfrisbee. FIG. 11 is the basic golfrisbee; FIG. 15 is the customized golfrisbee disk, etc. Referring to FIG. 11 of the application of free dangling fast release screw means, one of the screw means 34 is on the head of the golfrisbee club 2; the other corresponding fitting screw means 32 is mounted on the golfrisbee disk. Swiveling the pole, the golfrisbee disk rotates around the screw and takes off. The screw means 34 and the screw means 32 are separated to release the golfrisbee to launch and take off. Swiveling the golfrisbee pole, the golfrisbee disk rotates due to the eccentric force. Swiveling the pole, the screw means 34 of golfrisbee club and the screw means 32 are separate to release the disk to fly due to the rotation of the golfrisbee disk.

[0056] From our experience, for a beginner golfrisbeer, he had better to start to play the basic golfrisbee first. For the basic golfrisbee, all the important parameters have been cast into the golfrisbee disk and club as an integrated unit. With these preset parameters, the beginner golfrisbeer can swivel and launch the golfrisbee successfully without any problem. However, these parameters are the results of our numerous tests. The calibration processes for these parameters are professional and very tedious. The beginner golfrisbeer had better not to go through these parameters calibration process. They should leave the calibration process to the manufacturer until they become the expert golfrisbeer. Then they can adjust the parameters with the value-added universal golfrisbee, adjustable golfrisbee as shown in FIG. 15, FIG. 17, FIG. 18, etc.

[0057] Referring to FIG. 17, depending on the golfrisbeer is right-hand user or left-hand user; the golfrisbee club has the right hand golfrisbee club 2 and the left-hand golfrisbee club 7. The right-hand user will swivel the golfrisbee club 2 on the right side of his body; the left-hand user will swivel the golfrisbee club 7 on the left side of his body.

[0058] As shown in FIG. 17A and FIG. 17B, for the right-hand golfrisbeer, he uses the right hand golfrisbee club 2 together with the right hand fitting cap 11. The right hand screw 34 is notched on the club head 3. The right hand screw 32 is notched in the fit cap means 11. The fitting cap 11 having the right-hand screw 32 fits on the head 3 having the right hand screw 34.

[0059] As shown in FIG. 17A and FIG. 17C, for the left-hand golfrisbeer, he uses the left-hand golfrisbee club 7 together with the left-hand fitting cap 16. The left-hand screw 84 is notched on the left-hand club head 8. The left-hand screw 62 is notched in the left-hand fitting cap 16. For the left-hand golfrisbee system, the screw 84 is left-hand screw system. Accordingly, the fitting cap means 16 having the left-hand screw 62 fits on the head 8 having the left-hand screw 84.

[0060] In the following description, we make a lot of discussion is based on the right-hand golfrisbee. However, the same principles can be applied to left-hand golfrisbee.

[0061] Referring to FIG. 17, the golfrisbee disk1 is a special design disk to rotationally mount on the golh club head 3 with the screw mechanism. The screw 32 of the fitting cap 11 is rotationally fit on the right-hand screw 34 of the golfrisbee club head 3. The club head is constituted of a screw 34 notched on a pole 36. The pole 36 can be locked not to rotate with the locking screw 35. Releasing the locking screw 35, the pole 36 can rotate to adjust the designated launching point of the golfrisbee 1. The fitting cap 11 fitting on the club head 3 is mounted beneath the universal golfrisbee 1. The fitting cap 11 is constituted of the tube wall 31 and the right hand screw 32. The fitting cap 11 can be fixed with the locking screw 33. Releasing the locking screw 33, the fitting cap means can rotate to change the designated launching point of the golfrisbee 1, too. However, to make the adjustment of the designated launching point, both the fitting cap 11 and the club head 3 have to make the necessary adjustments together. The operation range is very narrow. It is easily out of range. Therefore, we strongly suggest the beginner golfrisbeer to start with the basic golfrisbee. As shown in FIG. 17C, the shield 10 is the airflow guiding plate to reduce the air drag force. The airfoil means needs to generate the air lift force. Referring to FIG. 17D, the airfoil means 101 is the blades which can generate the lift force.

[0062] As shown in FIG. 11A, all the value-added components are removed from the universal golfrisbee to be the basic golfrisbee. Referring to FIG. 11, one of the screw means 34 is on the head of the golfrisbee club 2; the other corresponding fitting screw means 32 is mounted on the golfrisbee disk. They are separateable and located on different places, pole and disk. Swiveling the pole, the golfrisbee disk rotates around the screw and launches to take off. The screw means 34 and the screw means 32 are separate and release the golfrisbee to launch and take off. Swiveling the golfrisbee club, the golfrisbee disk rotates due to the eccentric force and the screw means 34 of golfrisbee club and the screw means 32 are separate due to the rotation of the golfrisbee disk. This is a frictionless lock and launching mechanism. The cap fitting 11b is cast to be one unit with the basic golfrisbee 1b. The basic golfrisbee has only one fitting cap 11b having the screw to be either right-hand screw or left-hand screw. Correspondingly, the golfrisbee club 2b has the club head 3b having the notched screw to be either right-hand screw or left-hand screw. Referring to FIG. 8, the fitting means 11b is at the rim portion of said golfrisbee disk means 1b.

[0063] Just like the golf having many different clubs, the golfrisbee not only has many different kinds of clubs but also has many different kinds of golfrisbee disks. To understand the swivel-to-launch and push-to-skid working principle of the golfrisbee, the universal golfrisbee as shown in FIG. 17 is simplified to be the basic golfrisbee as shown in FIG. 11. It had better to understand the operation principle of golfrisbee principle with the basic golfrisbee. The operations of the basic golfrisbee are illustrated in FIG. 2, FIG. 3 and FIG. 7. The golfrisbee is similar to the golf. The golfer swivels the golf club to hit the golf ball to fly or push the golf ball to roll into the hole. The golfrisbeer swivels the golfrisbee club to launch the golfrisbee disk to fly or push the golfrisbee to roll into the hole.

[0064] My invention is use the eccentric force to generate the rotation of disk only rotate ½ turn to unlock and launch the flying disk to fly. As shown in FIG. 2, it shows the operations of the right-hand golfrisbee. In FIG. 2A, the disk fitting cap 11b mounts on the head 3b with the screw 32 engaging with the screw 34. As shown in FIG. 2B, rotates the basic golfrisbee 1b about ½ circle to ¾ circle in the right-hand screw direction, i.e., in the clockwise direction. The club head 3b holds the basic golfrisbee 1b with the screw mechanism. As shown in FIG. 3A, swiveling the club 2b backward slowly as the golfer or baseball player does. As shown in FIG. 3B, swiveling the club 2b forward fast as the golfer or baseball player does. Due to the eccentric force, the golfrisbee 1b rotates in the counterclockwise direction with the club head 3b being the pivotal center. As shown in FIG. 3C, as the golfrisbee 1b points forward and the club 2b is at the highest speed, it is the designated launching point set by the parameters of the golfrisbee. The cap fitting 11b of the golfrisbee 1b automatically takes off and the golfrisbee 1b launches to fly in the sky.

[0065] As the golfrisbee disk is in the neighborhood of the target flag 121, as shown in FIG. 7, the golfrisbeer pushes the golfrisbee 1b to skid into the hole 122 with the club 2b. The hole 122 is at the foot of the flag 121.

[0066] There are two kinds of flying styles: the airplane and the helicopter. Similarly, there are two kinds of flying style for the golfrisbee. As the fitting cap is located at the rim of the golfrisbee disk, the golfrisbee flies as the airplane; as the fitting cap position is at the center of the golfrisbee disk, the golfrisbee flies as helicopter. As shown in FIG. 11, the basic golfrisbee 1b mainly flies as the airplane. As shown in FIG. 17, the universal golfrisbee 1 can fly as either airplane or helicopter. Referring to FIG. 17B and FIG. 18B, as the fitting cap is located at the center of the golfrisbee, the golfrisbee 1 needs to use the motor enhanced club 2 or 2a. For the club having screw mechanism, the launching point must be set at a designated launching point on the swiveling trajectory of the club. Referring to FIG. 17A, the fitting cap 11 at the rim is for the airplane type golfrisbee; the fitting cap 12 at the center is for the helicopter type golfrisbee. With the motor enhanced golfrisbee club 2, the fitting cap 11 at the rim can be used to launch the golfrisbee to fly as the airplane or the fitting cap 12 at the center can be used to launch the golfrisbee to fly as the helicopter.

[0067] Different screws have different launching effects. Different weights have different launching and fly effects. Different people have different swiveling styles. Under different weather conditions, the golfrisbee has different optimum “weight to aspect ratio” for best performance. To meet the different requirements, we need to have an open platform to meet the different requirements of the versatile working conditions. To understand the open platform principle, the universal golfrisbee 1 is simplified to be the customized golfrisbee 1c in FIG. 16A and the personal golfrisbee 1p in FIG. 16B. FIG. 16C and FIG. 16D show the different weight systems. FIG. 16A, FIG. 16F and FIG. 16B show the golfrisbees with the open platform for the different screw and weight systems.

[0068] The screw mechanism of the golfrisbee has the special designs. It is not all the screws can be applied to the golfrisbee. They will make the failure of function of the golfrisbee. As shown in FIG. 12, it is the prior art of the screw of bottle and its cap. The prior art of screw of bottle and cap will fail the function of the golfrisbee. As shown in FIG. 12A, the angle of the starting thread is arbitrary. There is no such rule of optimum angle to be 5 degrees as shown in FIG. 6B. The starting point 1100 as of the thread of screw is arbitrarily located on the rim. As shown in FIG. 12B, there are multiple turns of the single thread of the screw. It is not the dual half-ring golfrisbee screw as shown in FIG. 13B. As shown in FIG. 12C, closing to the launch point, there is only one side of force Fsd induced by the single side engagement of the single thread of screw. The force couple of the lift force Lf and the single-side force Fsd generates the overturning momentum Mf. The overturning momentum Mf will make the golfrisbee 1 rotates around the screw 11. As shown in FIG. 12D, the rotation of golfrisbee disk 1 will cause the stall of the golfrisbee disk and the golfrisbee falls to the ground to have the disaster crash. So the screw of the golfrisbee needs to have the careful design.

[0069] As shown in FIG. 5, the swivel of golh club 2 causes the rotation of golfrisbee disk I to rotate 180 degrees. One turn has 360 degrees. So, 360 degrees/180 degrees=2, i.e., the golfrisbee needs to be the dual half-ring screw structure as shown in FIG. 13A and FIG. 13B. As shown in FIG. 6B, there is the optimum angle 5 degrees. It is corresponding to the specified starting points as shown in FIG. 13A. Due to the dual half-ring screw structure, at the launching point, there are two coupling screw forces Fsu and Fsd which generates the count momentum Ms to count against the overturning momentum Mf which is generated by the lifting force Lf to keep the golfrisbee to be flat in the horizontal flying status. As shown in FIG. 13D, as the golfrisbee 1 takes off form the golh head, the golfrisbee keeps the horizontal flying status. The horizontal flying momentum F combining with the lifting force Lf forms the resultant vector sum S. With the vector sum of force S, the golfrisbee flying high in the sky with the horizontal flying status.

[0070] The screw of golfrisbee is dangling screw type. The dangling screw of golfrisbee 1 and golh club 2 type is much different from the locking screw of the cap for the bottle type. As shown in FIG. 14 is the comparisons between the structures of the golfrisbee screw with the conventional bottle screw. FIG. 14A shows the complete scheme of the screw. The dual half-ring screw 11s has the upper edge 11U and the bottom edge 11L. There is an empty space 11ts above the dual half-ring screw 11s having the top edge 11te and the bottom edge 11t. The bottom edge 11t of the empty space 11ts is coincident with the upper edge 11U of the dual half-ring screw 11s. FIG. 14B is the section view of the golfrisbee screw structure; FIG. 14D is the section view of the cap structure. FIG. 14C is the elevational view of the screw of the head of the golh club; FIG. 14E is the elevational view of the screw of the bottle. Comparing the golfrisbee screw in FIG. 14B with the cap screw in FIG. 14D, the golfrisbee screw has the upper free space 11ts and it doesn't have the low free space 11bs; on the contrary, the cap doesn't have the upper free space 11ts and it has the low free space 11bs. Comparing the golh club screw in FIG. 14C with the bottle screw in FIG. 14E, the golh club screw has the bottom free space 11bs and it doesn't have the upper free space 11ts; on the contrary, the bottle screw doesn't have the bottom free space 11bs and it has the upper free space 11ts. We see the screw structure of the golfrisbee 1 and golh club head 2 is completely reverse the relation of the cap and bottle. It is due to the golfrisbee and golh head being dangling relation and the cap and bottle being locking relation. In the dangling relation, swiveling the golh club 2, the golfrisbee easily takes off to fly in the dangling screw relation. If the golfrisbee and golh club head dangling is mistaken to be the locking screw of the cap and the bottle, the golfrisbee and golh club cannot detached from each other. In the locking condition, the mistaken lock golfrisbee will not detached from the golh club 2 to fly. So, the screw mechanism of golfrisbee has the free space at the top of screw and the screw mechanism of golh club has the free space at the bottom of screw. The screw must be dual half-ring with the starting screw position to be 5 degrees from the vertical extended straight line.

[0071] As shown in FIG. 15A, FIG. 15B, and FIG. 15C, there are different frictionless lock means of screw systems. FIG. 15A is the frictionless lock and launch means of linear screw system. The linear screw shown in FIG. 15A is the screw system shown in FIG. 17. The screw 34 is notched on the pole of club head 3. The screw 32 notched on the inside wall 31 of cap fitting 11. For the linear system, the vertical take-off speed of the golfrisbee disk 1 is only a fraction of the horizontal rotational speed.

[0072] For the frictionless lock and launch means of non-linear screw system, the screw notched on the fitting cap 11 is different from the screw notched on the club head 3. To increase the vertical take-off speed of the disk 1, the non-linear screw system 340 is used. The horizontal rotation momentum will convert to the vertical take-off momentum. As shown in FIG. 15B, the jumping type screw 340 is in parabolic shape notched on the club head 3. The corresponding nonlinear screw 320 is a circle spot notched on the fitting cap 11.

[0073] FIG. 15C is the non-linear screw system 341 designed for the throwing distance. As shown in FIG. 15C, the speeding type golfrisbee nonlinear screw 341 is notched on the cap fitting means; the nonlinear screw is notched on the club head is only one circular spot 321, or vice versa. The golfrisbee 1a will not start the take off process until the club 2a swiveling at very high speed. The momentum is transmitted from the club 2a to the golfrisbee 1a effectively. The golfrisbee 2a with the nonlinear screw 341 will fly farther than the golfrisbee 2a with linear screw system 34.

[0074] In the windy day, we need to increase the weight of the golfrisbee. As shown in FIG. 1 7A and FIG. 1 6B, the universal golfrisbee disk 1 and the personal golfrisbee disk 1p are the open platform for different weight package 13. The adjustable weight package is fit in the central fitting cap 12.

[0075] As shown in FIG. 16A, FIG. 16B and FIG. 16E, to fit for the different requirements in the versatile conditions, the fitting cap 11c and the club head 3c can be exchanged. The customized golfrisbee 1c or the personal golfrisbee 1p and the customized club 2c provide the open platform for the different screw and/or weight system. Releasing the locking screw 33, the fitting cap 11c can be exchanged for different screws. Releasing the lock screw 35, the club head 3c can be exchanged for different screws. Exchanging the fitting cap 11c or the club head 3c, the screw 34c needs to match with the screw 32c. They should be changed in pair. Since it is difficult to calibrate, there is an alignment mark marked on the disk 1c to suggest the alignment of the fitting cap 11c. There is an alignment mark marked on the club 2c to suggest the alignment of the club head 3c, too.

[0076] Referring to FIG. 16B, as the golfrisbeer uses cap fitting 11c at the rim, the weight package 13 is screwed in the central fitting cap 12. As shown in FIG. 16C and FIG. 16D, the weight package 13 has two different types, packages 13s and 13t. As shown in FIG. 16C the adjustable weight 13 is a sealed package. Different package 13s has the different weight 130. The weight 130 is sealed inside the package. Depending on the wind condition, the golfrisbee player will select different weight package 13s. The notch 131 is to remove or install the weight package 13s. If the golfrisbeer wants to have fine tune for the weight, he can use the personal weight package 13t. The weight plate 133 can be added to the stud 135. The screw 134 locks the weight plates to the package 13t.

[0077] Referring to FIG. 17, to increase the lift, there are the airfoil means of blades 101 attaching to the disk body. To increase the rotating angular momentum of the golfrisbee 1, the motor 70 can be embedded in the head 3 of golfrisbee club 2. In the motor enhanced swivel-to-launch mode, the lock screw 35 will be released to let the axle 36 freely spin. The working principle of the motor enhanced golfrisbee is very smart. To swivel the golfrisbee pole to launch the disk to fly, the angle of the launching is very important. Just like the taking off process of the airplane, the angle of taking off is very important. In the golfrisbee disk launching to take off process, the angle is very important, too. The launching angle of the golfrisbee disk is controlled by the screw position. Referring to FIG. 8, for the golfrisbee club without the motor, the frictionless lock and launch means of screw 34 position is fixed to the optimum position. However, referring to FIG. 7, for the golfrisbee disk 1 being driven by the screw 34 with the motor 70 to rotate to increase the rotational momentum of the golfrisbee disk, at the moment of the launching the golfrisbee disk, the motor needs to stop rotation and parking the frictionless lock and launch means of screw 34 at the optimum position to have the optimum launching angle to launch the golfrisbee disk 1 to fly. This optimum parking position for the frictionless lock and launch means of screw 34 is referred to be the stopping position. The screw mechanism has both driving and launching capabilities. The push button 51 is the switch for the motor 70. There is one launching point indicator 71 which is the launching position and the rotating stop position indicator for the motor. On the launching point indicator 71, there is a stopping position mark. The motor will stop at the position specified by the stopping position mark. As the push button 51 is pushed to run, the digital motor will continuously run; as the push button 51 is pushed again, the digital motor will stop at the position specified by the stopping mark 71. As the motor 70 runs and drives the golfrisbee disk 1 to rotate, the golfrisbee disk I is engaged and held by the screw 34. As the motor 70 suddenly stop running and holds the axle 36 still, the golfrisbee disk 1 continues rotating due to the angular momentum. The golfrisbee disk I is released to launch to fly at the launching point specified by the launching point indicator 71. Such kind of an operation can be easily implemented with the modification of the traditional stepping motor. The battery pack 5 is to supply the electrical power to the motor 70. It can be rechargeable battery pack or conventional battery pack or fast exchangeable battery pack. The battery is embedded in the handle for the convenience of the replacement of the battery. Just sliding in and out, the battery can be replacement.

[0078] As shown in FIG. 18, it shows the adjustable golfrisbee 1a. Depending on the position of the fitting cap 11a, the golfrisbee disk can fly as an airplane or a helicopter. As the fitting cap 11a is located at the center, the golfrisbee 1a flies as the helicopter does. As the fitting cap 11a is located at the rim, the golfrisbee la flies as the airplane does. Referring to FIG. 18A and FIG. 18C, the frictionless lock and launch means of fit means 11a can be adjusted from the rim of the golfrisbee disk 1a to the center of the golfrisbee disk 1a. As shown in FIG. 18A, releasing the locking screw 171, the adjustable fitting cap 11a can slide on the slot 17. On the vertical wall of the guiding slot, there are the multimedia means 9a. The integrated multimedia device 9a has the similar structure as the integrated multimedia device 9 as shown in FIG. 17. The opening on the vertical wall for the multimedia means 9a not only reduces the aerodynamic drag but also has the multimedia effects. The adjustable golfrisbee 1a is launched to fly with the motor enhanced club 2a as shown in FIG. 18B.

[0079] As the golfrisbee 1 flies into the bush or fall into the pond, the pick-and-throw club 17 is needed. As shown in FIG. 20, the pick-and-throw club 17 is constituted of the finger 135 and the palm 178 to grasp the rim of the golfrisbee to pick up the golfrisbee and throw the golfrisbee. The finger 135 is pivotally mounted on the axle 171. Pressing on the handle 176, the steel wire 172 slides inside the guide tube 173 to pull the finger 135 to grasp the golfrisbee disk. The extension pole 174 slides in the handle pole 175 to adjust the pole length. The locker 176 is to lock the extension pole 174. As the locker 176 is released, the extension pole 174 can slide in the handle pole 175.

[0080] As the golfrisbeer does not have enough room to swivel the golfrisbee club, the golfrisbee has to fly out of the limited space as the helicopter does. Referring to FIG. 19, the club 2h having no screw, the club 2h must be the motor enhanced club. The launching point can be at any point on the swiveling trajectory of the club 2h. As shown in FIG. 19A, the golfrisbee 1h has the fitting cap 275 locating at the center. The fitting cap 275 fits on the cone 270 of the club 2h. The motor 232 slides on the pole of the golfrisbee club 2h. The motor 232 drives the steel wire 235 to rotate in the guided tube 234. The steel wire 235 drives the flat key 271 to rotate. The key 271 is inside the cone 270 to drive the cone 270 to rotate. Attaching to the flat key 271, there are two wires 236 having the hooked ends to grasp the protrude 276 at the top of the cone 275. First, mount the golfrisbee 1h with the fitting cap 275 fitting on the cone 270. As the motor 232 is pulled backward, the steel wire 235 pulls the wire 236 downward. Under the constraint of the tube confinement 237, the steel wire hooks 236 close to grasp the protrude 235. Pressing on the button 51h, the motor 232 drives the steel wire 235 to rotate. The steel wire 235 drives the key 271 to rotate. The key 271 drives the cone 270 to rotate. The cone 270 drives the golfrisbee 1h to rotate. As the motor 232 is pushed forward, the spring 272 pushes the key 271 upward. The hooks 236 will push the golfrisbee 1h to launch and release the golfrisbee 1h to fly. Under the lift force of the blade 101, the helicopter type golfrisbee 1h takes off to fly.

[0081] As shown in FIG. 17D, FIG. 18C or FIG. 18A, as the air passes the slot blowing on the integrated multimedia device 9 or 9a, it generates the multimedia effects. The multimedia device 9 can be as simple as the string 91 tied to the pole 92 or as complex as the integrated multimedia device 9m as shown in FIG. 21. For the simple string 91, it can be string ties two ends of poles 92. As the wind blows on it, it will generate sound. For the multimedia means 9m, it is a flat tongue means has one free end to vibrate.

[0082] As shown in FIG. 21, the integrated multimedia device 9m is constituted of the vibration lighting LED 83, the magnets 801 and 802, the vibration tongue 90 and/or the vibration fork 911. The principle of the vibration enlightened LED 83 has already fully disclosed in the FIG. 19 of U.S. Pat. No. 6,193,620. In this patent, we further integrate the harmonic vibration sound mechanism with the vibration enlightened mechanism to be an integrated multimedia mechanism 9m. As the air flow 950 flows through the slot, it blows on the vibration tongue 90 and/or the vibration fork 911 to generate the harmonic vibration and sound. The vibration enlightened LED 83 can be either attached to the free end of the vibration tongue 90 or attached to the vibration fork 911. There are many different designs and alignments. As the wind 95 blows on the tongue 90, it generates the harmonic vibration of whistle sound. The vibration of the tongue 90 will make the fork 911 to have the harmonic resonance. The harmonic resonance of the fork 911 causes the vibration enlightened LED 83 to shine light. As the vibration enlightened LED 83 vibrates in the magnetic field 94 generated by the magnet poles 801 and 802, the coil 81 wrapping around the LED 83 cuts the magnetic field line 94 to generate the electrical voltage. Due to the harmonic oscillator circuit being constituted of the LED and the coil, the electrical voltage will build up and enlighten the LED. The vibration enlightened LED 83 has different colors. As the golfrisbee disk flies and rotates, it looks beautiful.

[0083] While the invention has been particularly shown and described with reference to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A golfrisbee sport means comprises of a portable golfrisbee basket means for disk means being thrown into said portable basket means,

said portable golfrisbee basket means further comprising a net means for catching and holding said disk means being thrown in said portable golfrisbee basket means, said net means being supported cantilever means for spreading said net means to catch and hold said disk means,

said cantilever means having one end being hinged to a standing pole for supporting said cantilever means and net means,

said cantilever means being retractable with pivotal rotation at hinges that said portable golfrisbee basket means being portable.

2. A golfrisbee sport means comprises of a portable golfrisbee basket means according to claim 1 of which said portable basket means further comprises a sliding ring for these cantilever means being hinged at said sliding ring,

said sliding ring sliding on said pole means and said cantilever means having middle portion being hinged and supported by said pole means.

said cantilever means having middle portion being hinged and supported by said pole means with flexible strings for absorbing impact of said flying disk means,

said flexible string having one end being hinged to a top of said pole means for said flying disk means to hit and fall into said net means.

3. A golfrisbee sport means comprises of a portable golfrisbee basket means according to claim 1 of said pole means being an extendable pole sliding in one base pole and being locked with an locking means,

releasing said locking means, said extendable pole being sliding into said base pole for carry.

said pole means has tripod hinged to one sliding ring,

locking said sliding ring with a locking means, said tripod standing on ground; releasing said locking means, said tripod being retractable to be portable.

4. A golfrisbee sport means comprises of a universal portable put & hold means for put a disk means and for providing a hole target for rolling ball means;

said disk means being mounted on a universal portable put & hold means and be pushed to roll with a club means; said club means for swiveling a disk means to fly and push said disk means to roll into a cavity and push a ball means to roll into a hole,

said universal put & hole means having a hole at a center for said rolling ball to roll into it and two wedge type plugs, pulling out said two plugs to form slot means for mounting said disk means in said slot means to put for being pushed with said club means.

5. A golfrisbee sport means comprises of a disk means for being thrown to fly with a swivel of a club means by hands and said club means for being swiveled with hands to rotate said disk means and throwing said disk means to fly,

said club means being constituted of a pole means for being swiveled with hands in a circle to throw said disk means to fly and a head means for said disk means being pivotally mounted and said disk means being thrown out to rotate to fly in sky,

said disk means being constituted of a plate means for rotating and being thrown to glide to fly in sky and a fitting means for said plate means being pivotally mounting on said head means of club means, said pivotally mounting being eccentric to said plate means that said plate means pivotally rotating due to an eccentric force of said swivel of pole means that said rotation of disk means being in parallel to a plane of said swivel of said club means, said fitting means being pivotally rotating on said head means and changing directional relation with said head means as said pole means being swiveled with hands; said plate means with said fitting means being pivotally mounted on said head means and having frictionless lock and release with said head means and being launched to fly with said head means based on said directional relation between said head means and fitting means;

said head means being located at an end portion of said pole means that said disk means being mounted at an end portion of said club means;

said plate means rotating due to said eccentric force of said swivel of club means that said fitting means pivotally rotating to an position to unlock said frictionless lock with said head means that said disk means being released and being launched to fly at said position;

said fitting means and head means not only serving as a pivotally rotation but also serving a directional lock and release; with a directional lock and release mechanism being embedded between said head means and fitting means, swiveling said pole means of said club means, said disk means automatically rotating toward outside of said circle due to said eccentric force, said automatically rotating of said disk means changing directional relation with said head means from said lock to release of said directional lock and release mechanism that said head means releasing said fitting means to launch said disk means to fly,

swiveling said club means in a circle with hand, said club means transferring momentum and an eccentric force to said disk means to rotate said disk means to a new direction to release said lock; with said momentum transfer, said eccentric force causing pivotal rotation and generating gyroscopic force to stabilize disk means flying and said pivotal rotation of said disk means causing said directional lock and release mechanism of said fitting means and head means from lock to release, said disk means being driven to fly in a long distance with a swivel of said club means.

6. A golfrisbee sporting means according to claim 5 wherein said disk means being pivotally mounted on a head means of said club means with said fitting means, said directional lock and release mechanism of said fitting means and head means for frictionless lock and frictionless launch being a free dangling fast release snapping means for fast releasing said head means through a narrow slot on a wall of said fitting means,

as said disk means being pivotally mounted on said head of said club means with said fitting means, said free dangling fast release snapping means engaging said disk means with said head means of club means with a snapping fastener means for holding said fitting means with said head means and said disk means dangling to rotate freely on said head of club means, swiveling said club means, said disk means rotating due to said eccentric force that said frictionless lock and frictionless launch of said free dangling fast release snapping means of said head means sliding out of said fitting means through said slot on said wall of said fitting means that said head means releasing said disk means to launch said disk means to fly,

swiveling said club with hand in circle movement, said disk means pivotally rotating due to said eccentric force of a circle of said swivel of club means, said free dangling fast release snapping means transferring translation momentum to said disk and said eccentric force generating angular momentum of said disk means,

as said free dangling fast release snapping means disengaging said disk means from said head means of club means, at said disengaging position, said disk means being released by said free dangling fast release snapping means on said head means of club means, said disk means being released to fly due to translation momentum and rotation due to eccentric force, rotation from lock to release position and said rotation making said disk means have gyroscopic force to stabilize flight of said disk means.

7. A golfrisbee sporting means according to claim 5 wherein said disk means being pivotally mounted on a head means of said club means with said fitting means, said directional lock and release mechanism of said fitting means and head means for frictionless lock and frictionless launch being a free dangling fast release screw means,

as said disk means being pivotally mounted on said head of said club means with said fitting means, said free dangling fast release screw means engaging said disk means with said head means of club means and said disk means dangling to rotate freely on said head of club means,

swiveling said club means, said disk means rotating due to said eccentric force that said frictionless lock and frictionless launch of said free dangling fast release screw means releasing said disk means to launch said disk means to fly,

swiveling said club with hand in circle movement, said disk means pivotally rotating due to said eccentric force of a circle of said swivel of club means, said free dangling fast release screw means transferring translation momentum to said disk and said eccentric force generating angular momentum of said disk means,

as said free dangling fast release screw means disengaging said disk means from said head means of club means, at said disengaging position, said disk means being released by said free dangling fast release screw means on said head means of club means, said disk means being released to fly due to translation momentum and rotation due to eccentric force, rotation from lock to release position and said rotation making said disk means have gyroscopic force to stabilize flight of said disk means.

8. A golfrisbee sporting means according to claim 7 wherein said free dangling fast release screw means is constituted of dual half-ring screws,

said dual half-ring screws being separated from each other about half circles away, said disk means mounting on said head means of said club means at the extension line of said club means, rotating 180 degrees that said disk means being in said dangling engaging position,

in said dangling engaging position, rotating said disk means 180 degrees in a reverse direction, said disk means in disengaging position, swiveling said club means, said disk means rotation about ½ to ¾ turns having fast release of said disk means with said free dangling fast release screw means.

9. A golfrisbee sporting means according to claim 8 wherein said free dangling fast release screw means embedded in said disk means being a female screw means, said screw means embedded on the head means of said disk means being a male screw means, said female screw embedded in said disk means is to reduce aerodynamic drag force of said disk means.

10. A golfrisbee sporting means according to claim 7 wherein said screw means being eith linear screw means or nonlinear screw means,

said linear screw means has edges to be straight lines that the rotation speed of said disk being constant speed;

said nonlinear screw means has the edges to be curvilinear lines that the rotational speed of said disk being variable speed.

11. A golfrisbee sporting means according to claim 5 comprising a disk means,

said disk means is constituted of plate means for gliding to fly and blade means for providing lift in flight,

said plate means flying to provide lift force for said disk means due to a translation movement of said disk means,

on said plate means having a plural slot means,

at an entrance of each of said slot means there being a blade means,

said blade means sucking air and expelling air downward to provide lift force of said disk means as said disk means rotating; said blade means providing lift force for said disk means due to a rotational movement of said disk means.

12. A golfrisbee sporting means comprising a disk means according to claim 11 wherein said blade means being integrated with said plate means to be one unit, said plate means serving as blade means, said plate means being in a shape of blade means, front end of said plate means sucking air and tail end of plate means expelling air downward;

said blade means having cross section in a shape of airfoil mounted on said disk means, said shape of airfoil having cross section with a front portion in blunt shape and a tail in sharp knife shape, in a middle portion being curvilinear shape.

13. A golfrisbee sport means according to claim 11 further comprises a harmonic sound generator means, said harmonic sound generator means being constituted of a string means crossing wind blowing direction.

14. A golfrisbee sporting means according to claim 5 of which said club means further comprises an instant stopping rotation motor means for very high speed rotation of said disk means,

said motor means driving said disk means to rotate many turns at high speed before said disk taking off from said head of said club means to build up much higher angular momentum of said disk means that said disk means having much higher gyroscopic stability than a hand swiveling case of ½ turns rotation of said disk means,

to launch said disk means to fly, said instant stopping rotation motor means stopping to rotate suddenly and instantly, said disk means continuing rotating due to said angular momentum,

said disk means continuing rotating disengaging with said instant stopping rotation motor means and taking off from said club means due to said continuing rotating of said disk means.

said instant stopping rotation motor means further making instant stop at an specified stopping position for having an optimum launching process to launch said disk means to fly;

as said instant stopping rotation motor means stopping rotate suddenly and instantly at said specified stopping position, said disk means continuing rotating due to said angular momentum, said disk means making continuous rotation and taking off in less than one turns of rotation;

said specifying stopping position being to match said disk means position to said head of club means position that said disk means taking off along a tangent line of said circular movement of said club means,

as said instant stopping rotation motor means making an instant stop at said specified stopping position, said club means transferring a maximum momentum from said club means to say disk means to have a maximum throwing distance at said disengagement position.

15. A golfrisbee sporting means according to claim 7 of which said club means further comprises an instant stopping rotation motor means,

said motor means driving said disk means with said frictionless lock and frictionless launch of free dangling fast release screw means to rotate many turns at high speed before said disk taking off from said head of said club means to build up much higher angular momentum of said disk means that said disk means having much higher gyroscopic stability than a hand swiveling case of ½ turns rotation of said disk means,

as said instant stopping rotation motor means stopping to rotate suddenly and instantly, said disk means continuing rotating due to said angular momentum and taking off from said screw means,

said continuing rotating disk means disengaging with said instant stopping rotation motor means and taking off from said club means with said frictionless lock and frictionless launch of free dangling fast release screw means due to said continuing rotating of said disk means.

16. A golfrisbee sporting means according to claim 5 further comprising a multi-purposes weight means to increase said angular momentum and translation momentum of said disk means during swiveling said club with hand in circle movement,

an increment of said translation momentum increasing throwing long distance;

an increment of said angular momentum increasing gyroscopic stability to throw long distance;

said multi-purpose weight being located at a center of said disk means,

with an addition of said multi-purposes weight means, swiveling said club means with hands in a circular movement, an eccentric force generated by said circular movement of club means being increased to make said disk means moving outward faster, accordingly, said angular momentum being increased a lot,

with an addition of said multi-purposes weight means, swiveling said club means with hands in a circular movement, said translation momentum being proportional to a mass of said multi-purposes weight means, throwing distance being increased proportional to said increment of mass of said multi-purposes weight means.

17. A golfrisbee sport means according to claim 14 said disk means being pivotally mounted on a head of said club means of which mounting position of said disk means is adjustable from center to rim of said disk golf means,

as said mounting position being adjusted to be near center, said motor driving said disk means to rotate at much higher frequency than said mounting position being adjusted to be near a rim of said disk means doing,

as said mounting position being adjusted to be near center, said translation momentum transferred to said disk means being much higher than said mounting position being adjusted to be near a rim of said disk means doing,

adjusting said mounting position being capable to have an optimum combination of said motor driving and hand swiveling to have a maximum throwing distance.

18. A golfrisbee sport means according to claim 14 of which said motor mounted on a pole of said club means,

said motor driving a steel wire means to rotate and said steel wire means driving said disk means to rotate, said steel wire means transmitting torque and power to said disk means to drive said disk means to rotate;

pushing and pull said motor means, said steel wire means sliding in said pole, said steel wire means sliding to push said disk means to launch and fly.

said steel wire means further comprises a releasable hook means being located at a tip of said steel wire means,

said releasable hook means holding said disk means as said steel wire means being pulled;

said releasable hook means pushing and releasing said disk means to launch to fly as said motor means being pushed and said steel wire means sliding outward to push said disk means,

with said releasable hook means, said steel wire means pulling to hold and pushing to launch said disk means.

19. A golfrisbee sport means according to claim 5 comprises an integrated multimedia means,

said integrated multimedia means comprising a vibration tongue means for providing sound and vibration to a vibration enlightened means,

said vibration enlightened means being attached to said vibration tongue means;

a vibration of said vibration tongue means stimulating said vibration enlightened means to light,

air flow flowing through said vibration tongue means and transferring energy to said vibration tongue means to be vibration energy of said vibration tongue means;

said vibration tongue means vibrating and transferring vibration energy to vibration enlightened means to be electrical energy;

said electrical energy being converted to be light energy,

said vibration tongue means enhanced said energy conversion from said air flow to be light.

20. A golfrisbee sport means according to claim 19 of which said vibration enlightened means is constituted of a coil means wrapping around a LED means vibrating in a magnetic field means,

said coil means vibrating in a magnetic field to convert vibration energy to be electrical energy.

said vibration tongue means is constituted of a fork means and a tongue means,

said fork means having ends attaching to said vibration enlightened means and said tongue means seating between said fork means.