1. Field of the Invention
The present invention relates to a spinning toy, and particularly to a yo-yo type toy.
2. Description of Related Art
In their simplest form yo-yo's have been known since ancient times. The traditional yo-yo design comprises a spool where two disc bodies are attached by an axle. A length of string is securely tied to the axle or, in more modern designs, the string is looped around the axle to allow free movement of the string relative to the spinning spool.
More sophisticated yo-yo designs aim to increase game flexibility and play ‘tricks’ by reducing spinning friction and introducing ‘sleeping’ action, which is where a user is able to make a yo-yo spin on the end of its string without winding back up. These designs may include mounting the axle on a ball bearing assembly or adding a centrifugal clutch that has the effect of automatically winding the string back onto the yo-yo.
The present spinning toy achieves an even greater flexibility of game playing.
In one aspect of the present invention there is a spinning toy comprising a pair of spaced disc bodies joined by a transverse shaft forming a gap therebetween, a string attached to the shaft in the gap whereby the toy can be spun on the string, and a release mechanism for releasing the attachment of the string on the shaft while the toy is spinning.
In a further aspect of the present invention there is a method of using a spinning toy having a pair of spaced disc bodies connected by a transverse shaft forming a gap therebetween, and a string attached to the shaft in the gap, the method including:
The present invention is described further by way of example with reference to the accompanying drawings of which:
The embodiments of a spinning toy 10 illustrated in the drawings shows a yo-yo type toy that can function as a regular yo-yo to spin away from and back to a user's hand, but which also has a release mechanism 17 that will detach the string from the yo-yo when the yo-yo closely approaches a surface. Once the string is detached the yo-yo assumes the characteristics of a spinning wheel and rolls along the surface.
In a preferred embodiment the toy may be used as a regular yo-yo but has the option of switching to a state whereby a force on the circumference of the yo-yo will cause the string to detach and allow the remaining body of the yo-yo to roll and run free across the surface while the string remains behind in the hands of the user.
As illustrated more particularly in
The other end of shaft 13 is provided with a flange 27 that prevents the shaft escaping from central aperture 18 in disc body 11. This end of the shaft 13 may be secured tightly in central aperture 18 such that disc body 11 jointly moves with this end of shaft 13. The shaft may be glued into the central aperture 18 or be made to fit tightly in the aperture.
Two catches 29 are located in concave indentations 30 at the center of each inner housing plate 21. Catches 29 can be fixed one to each inner housing plate 21 adjacent aperture 18 or 19, or the catches 29 are simply positioned above shaft 13. Catches 29 are designed to hold the spindle 16 to which the string 15 is attached. Hence, spindle 16 is able to freely rotate about shaft 13 and is prevented from slipping therefrom by catches 29.
In an alternative embodiment catches 29 are not necessary as the spindle 16 may be retained on shaft 13 simply by way of the concave indentations 30 at the center of each inner housing plate 21. As illustrated in
In the first embodiment, spindle 16 is a part circular clip with a semi-circular cut out center 32. The spindle encircles the shaft by approximately 180° and semi circular centre 32 sits on shaft 13. Centre 32 has a smooth, low friction surface to enable the spindle 13 to rotate about the shaft. A small aperture 33 at the top center of the spindle 16 opens into a larger aperture 34, which opens into the cut out 32. This configuration allows a string to be securely tied and connected to the spindle by threading the string through small aperture 33 and forming a knot at the string end which abuts against the larger aperture but is too large to slip through the smaller aperture 33.
In this embodiment, the string 15 can only be detached from the shaft when the disc bodies 11,12 are separated far enough to allow the spindle 16 to slip away from the shaft through gap 14. Release mechanism 17 is responsible for sufficiently separating the two disc bodies 11,12 to allow the spindle to escape from therebetween. Release mechanism 17 includes a trigger 40 and a release tab 42 that engages with a circumferential groove 44 on shaft 13.
In the embodiment illustrated in
Release tab 42 lies in the same plane as trigger 40 and is biased to abut up against trigger 40 by tab spring 50 mounted in the interior circumference of disc body 12. Release tab 42 has a large rounded aperture 51 through which shaft 13 extends. A second smaller aperture 52 on the tab receives a screw 54 that fixes into inner housing plate 21 of disc body 12 to stably hold the release tab 42 in position. Release tab 42 is designed to shift in a planar direction against spring 50 in response to rotation of trigger 40. Apertures 51 and 52 are shaped so that release tab 42 can still move with respect to shaft 13 and screw 54.
The purpose of release tab 42 is to maintain shaft 13 in an axially restrained position against shaft spring 26. It does this by engaging an edge of aperture 51 in groove 44 of shaft 13 when the release tab is a rest position. The rest position is illustrated in
By pivoting trigger 40 lower shoulders 41 of trigger 40 are caused to push up against release tab 42 against the force of tab spring 50. This then moves aperture 51 relative to shaft 13 to disengage the release tab 42 from groove 44 of shaft 13. When release tab 42 has entirely disengaged from shaft 13 the potential force stored in shaft spring 26 will cause the shaft to move across laterally thereby moving disc body 11 away from disc body 12 and increasing the gap between two disc bodies. A widening of gap 14, as mentioned above, allows spindle 16 to be released from its position on shaft 13 and hence string 15 to be disconnected from the main disc body part of the spinning toy 10.
Trigger 40 is actuated when it encounters a force that causes it to pivot from its outwardly protruding position. The start position is illustrated in
As trigger 40 pivots one of the lower shoulders 41 will cause tab 42 to release the shaft and widen the gap 14 between the two bodies to release the spring. Typically, in a game play this is best achieved when the yo-yo is “sleeping”. While “sleeping” the user moves the spinning yo-yo close to a surface, such as the floor. As the yo-yo approaches the floor the trigger 40 hits the floor before the peripheral circumference of disc bodies 11,12. The force of the contact with the floor causes the trigger to pivot thereby releasing the string from the shaft between the disc bodies. With the string released the yo-yo travels across the surface, and if performed skillfully, in the manner of a rolling wheel.
String detachment and re-attachment of the present toy provides an added dimension of play over a regular yo-yo. The present spinning toy may continue to be used solely as a regular yo-yo: the string detachment feature can be deactivated by manually pivoting trigger 40 to the “down” position where the trigger does not protrude from the circumference of the disc body 12. Lower shoulders 41 of trigger 40 are designed such that they only cause release tab 42 to shift when the trigger has pivoted approximately 45° on either side of upright. At a pivoted movement of 90° the trigger does not apply a force against release tab, and the tab remains in the rest position firmly engaging shaft 13. Hence, the yo-yo can be played as a regular yo-yo with trigger 40 safely positioned inside the circumference of the spinning disc bodies.
However, shaft 59 in this embodiment is shaped differently from the first embodiment and the spindle 16 relies on a different technique for detachment from the shaft 59. Shaft 59 is illustrated in
In this embodiment shaft 59, during normal yo-yoing conditions, exposes the large shaft diameter 60 in gap 14. In order to release the spindle 16 from the shaft, the release mechanism activates to shift shaft 13 axially to expose the small shaft diameter 61 in gap 14. The spindle 16 is shaped such that when large shaft diameter 60 is exposed in the gap 14, the spindle maintains its attachment on the shaft. However, as the shaft is shifted to expose the small shaft diameter the spindle is freed from the shaft.
Turning to
Turning back to
Release mechanism 100 as illustrated in
Release mechanism 100 includes a release tab 42 spring mounted on tab spring 50 against a circumferential interior of disc body 11. The aperture 51 of release tab 42 in this embodiment is oval (as illustrated in
Trigger 40 is illustrated in
However, in this embodiment even with the disengagement of shaft 59 from release tab 42 the shaft will not immediately shift axially because a clutch 80 is provided as a safety measure to prevent movement of the shaft 59 unless the correct conditions are achieved. The correct conditions to be achieved in order to release the string from the shaft are:
Clutch 80 is best illustrated in
An opening 90 in the outer cap 94 of disc body 11 allows a user to manually push down clutch arm 82 to disengage clutch 80 from shaft 59. This feature may be useful, for example, where after string disconnection the shaft 59 is locked back into position but inadvertently without first placing the spindle on the shaft. By inserting a pointed object through cap opening 90 the clutch 80 can be disengaged from the shaft 59 and trigger 40 may be pivoted to allow the release mechanism to release shaft 59 thereby exposing the small shaft diameter 61 which will allow a user to reinsert spindle 16 onto the shaft 59. Without this feature it would be difficult to unlock shaft 59 and reinsert spindle 16.
As shaft 59 is released and shifts to reveal to the small diameter 61, the secondary leg 70 projects further out of a corresponding aperture 96 in outer cap 94 of disc body 11.
When both the release mechanism 17 and clutch 80 are disengaged from shaft 59, the shaft is free to move under the force of shaft spring 68 to expose the small shaft diameter 61 from which spindle 16 can detach. To prevent complete separation of the disc bodies, shaft 59 is prevented from escaping entirely from disc body 12 by step 75.
Once detached from the string the yo-yo will continue to rotate under an inertia force and roll along the ground. To reassemble the yo-yo, the string on the spindle is mounted back onto the small shaft diameter 61 and in that position the secondary leg 70 of shaft 59 is pushed inward of disc body 11, in the direction opposite to the arrow illustrated in
While the present spinning yo-yo toy can operate without a clutch 80, a clutch is preferred for the sake of safety. Clutch 80 prevents shaft 59 from moving if release mechanism 100 is activated in a child's hand or while the yo-yo is not spinning.
The present spinning toy adds an extra playing dimension to yo-yo's as they are currently known. In addition to the normal versatility of yo-yo toys, the present spinning toy allows the creation of new tricks and raises the level of skill in commanding a yo-yo. One of the added game skills involves smooth and accurate release of the string to encourage the rolling discs to travel as far as possible.
Variations to the internal working mechanisms of the yo-yo are possible for achieving the same result of disconnecting the string while the yo-yo is in play. Two different embodiments have already been described and further variations conceivably fall within the spirit and scope of the spinning toy as defined by the claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AU2004/000539 | 4/27/2004 | WO | 00 | 7/19/2005 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/091745 | 10/28/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2337334 | Lohr | Dec 1943 | A |
6354905 | Haines et al. | Mar 2002 | B1 |
6599165 | Van Dan Elzen | Jul 2003 | B1 |
Number | Date | Country |
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186281 | Sep 1922 | GB |