This invention generally relates to a shape changing apparatus, and more particularly, to shape-changing toy apparatus, assembly, and methods of use.
Although there are many toys on the market, manufacturers constantly seek new ways to make toys that are more entertaining and amusing. Often, children are particularly interested in toys having moving parts. Mechanical aspects of toys are intellectually stimulating to children as they must learn how to operate the toy, and they may experience curiosity as to how the toy works. Moreover, toys requiring user operation help children to develop fine motor skills.
In addition to making toys appealing to children, toy manufacturers must also market them to parents. For example, many parents are interested in relatively inexpensive toy options. Children may sometimes grow bored or “grow out of” toys, and, thus, parents may be hesitant to spend a great deal of money on a particular toy. Parents may also be interested in purchasing relatively small toys that do not require much storage space. Moreover, relatively small toys may be carried with the child to keep him or her occupied during trips or errands outside the home. For example, small toys may be carried in a mother's purse to occupy children “on the go.”
According to one embodiment of the invention, a shape changing apparatus includes a body portion having first and second opposing sides. The shape changing apparatus further includes first and second appendages pivotally attached to respective first and second sides of the body portion so as to be rotatable about respective first and second axes of rotation. The first and second appendages are moveable between an open position and a closed position. Each appendage has a generally arcuate shape. The shape changing apparatus further includes a biasing mechanism coupled to the first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes a release mechanism operatively coupled to one of the first or second appendages. Upon activating the release mechanism the biasing mechanism pivots the first and second appendages to the open position.
According to another embodiment of the invention, a shape changing apparatus includes first and second appendages pivotally attached to one another about a common axis of rotation. The first and second appendages are moveable between an open position and a closed position. Each appendage has a generally arcuate shape. The shape changing apparatus further includes a biasing mechanism having first and second ends coupled to respective first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes a release mechanism operatively coupled to one of the first or second appendages. The release mechanism has a retention mechanism to help secure the first and second appendages in the closed position. Upon activating the release mechanism the biasing mechanism pivots the first and second appendages to the open position.
According to yet another embodiment of the invention, an assembly includes a shape changing apparatus and a launching dock. The shape changing apparatus includes first and second appendages pivotally attached to one another about a common axis of rotation. The first and second appendages are moveable between an open position and a closed position. Each appendage has a generally arcuate shape. The shape changing apparatus further includes a biasing mechanism having first and second ends coupled to respective first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes at least one retention tab positioned on one of the first and second appendages. The launching dock includes an apparatus retention mechanism configured to cooperate with the retention tab for securing the apparatus to the launching dock while the first and second appendages are in the closed position. The apparatus retention mechanism has an actuator for selectively releasing the retention mechanism to permit the first and second appendages to move from the closed position to the open position, which launches the apparatus from the launching dock.
According to an embodiment of the invention, a method is provided for operating a shape changing apparatus. The shape changing apparatus includes a body portion having first and second opposing sides and first and second appendages attached to respective first and second sides of the body so as to be rotatable about respective first and second axes of rotation. The first and second appendages are moveable between an open position and a closed position. Each appendage has a generally arcuate shape. The shape changing apparatus further includes a biasing mechanism having first and second ends coupled to respective first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes a release mechanism operatively coupled to one of the first and second appendages. The method includes the steps of positioning the body portion adjacent a generally cylindrically object and moving at least one of the first and second appendages into the closed position such that the first and second appendages at least partially encircle the generally cylindrical object and the biasing mechanism is stretched. The method further includes the step of activating the release mechanism such that the biasing mechanism pivots the first and second appendages to the open position.
According to another method of operating a shape changing apparatus of the present invention, the shape changing apparatus has first and second appendages pivotally attached to one another about a common axis of rotation. Each appendage has a generally arcuate shape. The first and second appendages are moveable between an open position and a closed position. The shape changing apparatus further includes a biasing mechanism having first and second ends coupled to respective first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes a release mechanism operatively coupled to one of the first or second appendages. The method includes the steps of positioning the shape changing apparatus adjacent a generally cylindrically object and moving at least one of the first and second appendages into the closed position such that the first and second appendages at least partially encircle the generally cylindrical object. The method further includes the step of activating the release mechanism such that the biasing mechanism pivots the first and second appendages to the open position.
According to yet another method of operating an assembly having a shape changing apparatus, the shape changing apparatus includes first and second appendages pivotally attached to one another about a common axis of rotation. The first and second appendages are moveable between an open position and a closed position. Each appendage has a generally arcuate shape. The shape changing apparatus further includes a biasing mechanism coupled to the first and second appendages. The biasing mechanism is configured to bias the first and second appendages to the open position. The shape changing apparatus further includes at least one retention tab positioned on at least one of the first and second appendages. The assembly further includes a launching dock having an apparatus retention mechanism configured to cooperate with the retention tab. The apparatus retention mechanism also has an actuator for selectively releasing the retention mechanism. The method includes the steps of positioning the shape changing apparatus adjacent the launching dock, moving at least one of the first and second appendages into the closed position such that the first and second appendages at least partially encircle the launching dock, and securing the retention tab in the retention mechanism when the first and second appendages are in the closed position. The method further includes the step of actuating a release of the retention member such that the biasing mechanism pivots the first and second appendages to the open position, which launches the apparatus from the launching dock.
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the detailed description of the embodiments given below, serve to explain the principles of the invention.
With reference to
In general, the body portion 12 includes a housing 30 and components positioned therein. The body portion 12 is positioned centrally on the toy 10. Although the body portion 12 is shown having a generally rectangular shape, one of ordinary skill will recognize that the shape and dimensions of the body portion 12 may vary. For example, in an embodiment, the body portion 12 may be rounded so as to form a dome shape. The body portion 12 may further be decorated or designed, as will further be described below.
The appendages 14 are generally arcuately shaped to fit around object 24 that supports the toy 10 in a closed position. Cylindrical object 24 could be any generally cylindrical shape like a body part, such as a wrist, an arm, a finger, a leg, and/or an ankle. However, a wide variety of objects may serve as the support. One of ordinary skill will recognize that toy 10 may comprise any number of appendages 14, including more or less than the four shown in the figures. Moreover, it is not necessary that the appendages 14 be positioned symmetrically on the body portion 12. For example, one side 16 of the body portion 12 may have a greater number of appendages 14 extending therefrom than the other side 20 of the body portion 12.
In the embodiment shown in
With reference now to
The biasing mechanism 50 is configured to bias the appendages 14 to the open position. The biasing mechanism 50 should be pre-loaded prior to being coupled to the appendages 14 so that appendages 14 stay in the open position until an external force is applied. In order to rotate the appendages 14 from the open to the closed position, a force greater than the biasing force must be applied.
With reference now to
With specific reference now to
The body 12 further includes a release mechanism 66 operatively coupled to the retention mechanism 60. The release mechanism 66 is configured to provide for selective release or unlocking of the retention mechanism 60 so as to enable the appendages 14 to move from the closed position to the open position. When the toy 10 is positioned on the generally cylindrical object 24 and the appendages 14 are moved from the closed position to the open position, the toy 10 jumps or launches off of the generally cylindrical object 24. The release mechanism 66 may comprise a button that is operatively coupled to the latch 62. In the embodiment shown, when the button 66 is pushed inwardly (i.e., toward a center of the body 12), an extension on the button 66 forces the latch 62 out of contact with the notch 64 of the intermeshing gears 36, allowing the intermeshing gears 36 to rotate as the biasing mechanism 50 biases the appendages 14 to the open position. Although one of ordinary skill will recognize that a configuration of the release mechanism 66 may vary, it should be positioned on the body 12 and configured such that activation by an operator's finger will not interfere with or prevent the toy 10 from launching off of the generally cylindrical object 24. For this reason, the embodiment shows a release mechanism 66 that is activated by applying a force substantially parallel to the axes of rotation 18, 22 so that the finger does not restrict upward movement of the toy 10.
The body portion 12 further includes a motor 70 and a drive wheel 72 operatively coupled to the motor 70. The motor 70 may have an off/on switch (not shown) that is accessible from an exterior of the body portion 12. The motor 70 is operatively connected to a battery 74 or other power source for powering motion of the drive wheel 72. The drive wheel 72 extends at least partially out of the body portion 12 so it can contact a support surface when the appendages 14 are in the open position. The drive wheel 72 is configured to propel the toy 10 across the support surface after the toy 10 is launched from the generally cylindrical object 24 and the appendages 14 moved from the closed position to the open position. The motor 70 further includes a switch (not shown) operatively connected thereto and configured to deactivate the motor 70 when the first and second appendages 14 are in the closed position. In this way, the motor 70 is activated, and thus, the drive wheel 72 propels the toy 10, only when the appendages 14 are in the open position.
With specific reference now to
As shown in
With further reference to the embodiment shown in
The appendages 14 comprise a variety of shapes (e.g., a solid curve, an angled appendage having an “elbow” (
In use, an operator of the shape changing toy 10 turns on the motor 70 with the switch. With the appendages 14 in the open position, the operator then positions the body 12 portion of the toy 10 adjacent the generally cylindrical object 24 such that the release mechanism 66 is positioned toward the operator (i.e., away from a desired launching direction). The operator then rotates at least one of the appendages 14 about its respective vertical axis 18, 22 so as to move the appendages 14 into the closed position, in which the appendages 14 at least partially encircle the generally cylindrical object 24. When the appendages 14 are in the closed position, the biasing mechanism (coil spring) 50 is stretched, and the retention mechanism 60 locks or secures the appendages 14 in the closed position. When the operator wishes to launch the toy 10, the operator activates the release mechanism 66 by applying a force substantially parallel to the axes of rotation 18, 22. With reference to
With reference now to
The appendages 214 have generally arcuate shapes configured to fit around an object 224 which may support the toy 200 in a closed position. This object 224 may have a generally cylindrical shape like a body part, such as a wrist, an arm, a finger, a leg, and/or an ankle. However, a wide variety of objects may serve as the support. Moreover, as described above, the appendages 214 may comprise a variety of shapes and may have fins 100 positioned thereon. In the embodiment shown in
The forks 226 (or two appendages 214) are coupled together by a pin 232, which also serves as an axle at the common axis of rotation 218. One fork 226 includes two projections or loops 234 with a recess 236 therebetween, and the other fork 226 includes a single projection or loop 234 corresponding in size and shape so as to be positioned within the recess 236 of the first fork 226. In this way, the coupling between the forks 226 is similar to a butt hinge commonly used on doors. The projections 234 of the both of the forks 226 include aligned apertures, through which the pin 232 is inserted. One of ordinary skill will recognize that the number and position of the projections 234 may vary.
With specific reference to
As shown, the apparatus 200 includes a release mechanism or toggle button 260. The toggle button 260 has a small projection 262 extending from a bottom thereof that corresponds to a notch 264 in one of the forks 226 or appendages 214. When the appendages 214 are rotated to the closed position, the projection 262 enters the notch 264, whereby the appendages 214 are secured in the closed position and projection 262 prevents movement of the appendages 214 toward the open position. In this way, the release mechanism (or toggle button) 260 along with projection 262 act as a retention mechanism. The appendages 214 may be selectively released by pressing the toggle button 260, which pivots the projection 262 away from the notch 264. Similar to the push button 66 described above, the toggle button 260 may be activated by a force applied substantially parallel to the common axis of rotation 218. By applying the force to the toggle button 260 substantially parallel to the common axis of rotation 218, the operator's finger will not restrict the upward movement of the toy 200 away from the object 224.
In an alternative embodiment, the toy 200 may not include a release mechanism 260. In an embodiment that does not include any sort of a retention mechanism, the appendages 214 may simply remain in a closed position due to an interaction between the appendages 214 in the closed position. In the embodiment in which the toy 200 is positioned on an operator's wrist (i.e., the wrist is the generally cylindrical object 224), an operator simply flicks his wrist or slightly moves the appendages 214 apart to trigger the biasing mechanism 250 and move the appendages 214 to the open position. Without a retention or release mechanism 260, the biasing mechanism 250 may be very sensitive, requiring only a minimal force to bias the appendages 214 open.
With continued reference to the embodiment shown in
One of ordinary skill will recognize that additional features may be added to this embodiment of the shape changing toy 200, including, but not limited to, the appendages 214 being coupled to the fork 226 at axes of rotation 80 different than the common axis of rotation 218 so as to provide lateral movement of the appendages 214 or the addition of a motor 70 and drive wheel assembly 72, as described above.
With reference now to
The appendages 314 have generally arcuate shapes that are configured to fit around a generally cylindrically shaped launching dock 304 (described in further detail below) that can support the toy 302 in a closed position. Moreover, as described above, the appendages 314 may comprise a variety of shapes and may have fins 100 positioned thereon. In the embodiment shown in
In an embodiment, the forks 326 are coupled together by a pin 332 that also serves as an axle at the common axis of rotation 318. Each fork 326 includes a loop 334 proximate each end thereof. The loops 334 of one fork 326 are offset from and are complementary to the loops 334 of the other fork 326. Each loop 334 includes an aperture, and the apertures of the loops 334 of both forks 326 are aligned when the forks 326 are coupled together. A pin 332 is inserted through the apertures of all four loops 334 so as to create the common axis of rotation 318. In this way, the coupling between the forks 326 is similar to a butt hinge commonly used on doors. One of ordinary skill will recognize that the number and positions of the loops 334 may vary.
The toy 302 further includes a biasing mechanism 350. In this embodiment the biasing mechanism 350 is a torsion spring. One end of the biasing mechanism or torsion spring 350 is coupled to the fork 326 or appendage 314 on one side 316 of the common axis of rotation 318, and the other end of the biasing mechanism or torsion spring 350 is coupled to the appendage 314 or fork 326 on the other side 320 of the common axis of rotation 318. The biasing mechanism 350 is configured to bias the appendages 314 to the open position. In
The toy 302 further includes at least one retention tab 360 positioned on at least one fork 326 or appendage 314. In the embodiment shown in
Turning now to the launching dock 304 shown in
In an embodiment, the launching dock 304 is configured to be positioned on a generally cylindrical object 326, such as an operator's wrist, arm, finger, leg, or ankle, for example. In this way, the launching dock 304 is similar to a cuff style bracelet. As shown, the launching dock 304 includes an opening 382 at a bottom portion thereof so as to permit the operator to simply slide the launching dock 304 on and off his or her wrist, for example. One of ordinary skill will recognize, however, that the launching dock 304 may have a variety of configurations, including a variety of closing mechanisms for putting on and/or removing the launching dock 304 from the generally cylindrical object 326. For example, the launching dock 304 may include a hinge (not shown) that permits the launching dock 304 to be opened and closed. In an alternative embodiment, the launching dock 304 may be configured or used as a free standing apparatus that is not positioned or worn on another object.
The launching dock 304 further includes the retention mechanism 370 configured to cooperate with the at least one retention tab 360 for securing the toy 302 to the launching dock 304 while the first and second appendages 314 are in the closed position. As part of the retention mechanism 370, the upper surface 380 of the launching dock 304 may include two raised rails 384 positioned proximate opposite ends of the launching dock 304. The rails 384 generally correspond to the shape and size of the edges 364 of the forks 326. The rails 384 are configured to abut the edges 364 of the forks 326 and serve as aids for positioning the toy 302 on the launching dock 304. One of the rails 384 corresponds in size and shape to the recess 368 below the overhang 366 in the at least one retention tab 360. When the toy 302 is positioned on the launching dock 304 in the closed position, the overhang 366 of the retention tab 360 abuts and extends over the rail 384.
The retention mechanism 370 further includes a pivoting button 390 that is coupled to or coupled adjacent to the rail 384. The pivoting button 390 may be pivoted between a locked position, in which it is in contact with the toy 302, and an unlocked position, in which it is not in contact with the toy 302. At least one tab-like extension 392 protrudes from an end of the pivoting button 390 so as to extend in a spaced position above the rail 384 in the locked position. The extension 392 is configured to cooperate with the retention tab 360 such that when the overhang 366 of the retention tab 360 abuts and extends over the rail 384 when the toy 302 is in the closed position on the launching dock 304, the extension 392 extends over the retention tab 360 to hold the appendages 314 of the toy 302 in the closed position. The pivoting button 390 is generally biased toward the locked position. In this way, the pivoting button 390 is forced away from the rail 384 when the appendages 314 of the toy 302 are closed around the launching dock 304, and then the tab-like extension 392 of the pivoting button 390 biases back toward the rail 284 to extend over the retention tab 360.
The retention mechanism 370 also includes an actuator for selectively releasing the retention mechanism 370. In an embodiment, the actuator may comprise a top surface 394 of the pivoting button 390 that is positioned in spaced relation to the upper surface 380 of the launching dock 304 when the pivoting button 390 is in the locked position. The pivoting button 390 is configured to be actuated when a downward force (i.e., a force substantially perpendicular to the common axis of rotation 318) is applied to the top surface 394 thereof. When the pivoting button 390 is actuated, the button 390 pivots away from the rail 384, and the tab-like extension 392 moves out of contact with the retention tab 360. As such, the retention mechanism 370 is released, which permits the appendages 314 to move from the closed position to the open position so as to launch the toy 302 from the launching dock 304.
One of ordinary skill will recognize that additional features may be added to this particular embodiment of the shape changing toy 302, including, but not limited to, the appendages 314 being coupled to the fork 326 at axes of rotation 80 different than the common axis of rotation 318 so as to provide lateral movement of the appendages 314 or the addition of a motor 70 and drive wheel assembly 72, as described above.
With continued reference to
The shape changing toy 302 is then positioned adjacent an upper surface 380 of the launching dock 304. The end of the toy 302 on which the retention tab 360 is located is positioned proximate the pivoting button 390. The toy 302 is guided into a proper position on the launching dock 304 by aligning the edges 364 of the forks 326 with the rails 284 and positioning the toy 302 within the rails 384. The operator then moves at least one of the appendages 314 into the closed position by rotating the appendage 314 about the common axis of rotation 318. When the appendages 314 are in the closed position, they at least partially encircle the launching dock 304. When the retention tab 360 of the toy 302 comes to rest on the rail 384, the extension 392 of the pivoting button 390 is biased toward the rail 384 and snaps into locking position, such that the extension 392 is positioned above the overhang 366 of the retention tab 360. Accordingly, the retention mechanism 370 secures the appendages 314 in the closed position.
When the operator desires to launch the toy 302, the operator exerts a downward force on the pivoting button 390 so as to pivot the extension 392 out of contact with the retention tab 360. Accordingly, as shown in
With respect to each of the embodiments described above, one of ordinary skill will recognize that the aspects of the invention described above may be combined in a wide variety of embodiments not explicitly described above. Moreover, the shape changing toy and/or the launching dock may be designed and decorated to create a wide variety of appearances. For example, in an embodiment, the toy may have eight appendages, and the body portion and the appendages may be designed to resemble a spider. As another example, the toy may have two wide appendages that are designed to look like wings. As such, the toy may be designed and decorated to resemble a butterfly, a bumblebee, a bird, etc. In yet another example, the toy may have four or more petal shaped appendages, and the toy may be designed and decorated to resemble a flower. One of ordinary skill will recognize almost limitless creative options for the design and decoration of the shape changing toy.
While the present invention has been illustrated by the description of specific embodiments thereof, and while these embodiments have been described in considerable detail, they are not intended to restrict or in any way limit the scope of the appended claims to such detail. The various features discussed herein may be used alone or in any combination. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and methods and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the scope or spirit of the general inventive concept.