The present disclosure relates generally to transformable toys capable of spinning like a spinning top. In particular, the disclosure relates to a transformable toy for use on a playing surface.
It is known within the art to provide transforming toys that can transform or change their shape between spherical-shaped and character-shaped positions. For example, Chinese Patent Application No. 2011/47642 teaches a transformable toy that includes a spherical outer shell with a pivot member that allows it to be moved between a sphere and a figurine position. In another example, U.S. Pat. No. 7,306,504 teaches a toy with a first movable, spherical member, a second movable, spherical member and a coupler positioned between and coupled to the first and second spherical movable members for transforming the toy from an open, figurine shape to a closed, spherical shape.
It is also known within the art to provide a spherically shaped toys with internal flywheel mechanisms that are driven by a ripcord, and which spin independently of the toy to drive a spinning motion of the toy. For example, U.S. Pat. No. 9,643,095 teaches a spinning top that includes an internal flywheel mechanism to act as a gyroscope. Similarly, reference WO 2011/083313 teaches a spinning toy with spherical housing and a flywheel mounted on an axis in the housing. There is an opening in the housing for “charging” of the flywheel via a charging device in order to drive a spinning motion of the toy.
It is an object of the present disclosure to provide a novel transformable toy.
According to an aspect, there is provided a transformable toy comprising a top housing portion including a connector and at least one movable housing element that is movable between a retracted position and an expanded position, the at least one movable housing element being biased towards the expanded position and including a catch, the connector being separably connectable to one of a first bottom housing portion and a second bottom housing portion, each of the first bottom housing portion and the second bottom housing portion including an latch and an actuator connected to the latch, the latch being positioned within each of the first bottom housing portion and second bottom housing portion such that when the top housing portion is separably connected to one of the first and second bottom housing portions, and when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position, the actuator being actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element, the second bottom housing portion including a driving element operably mounted within the second bottom housing portion to drive a motion thereof.
According to another aspect, there is provided a transformable toy comprising a top housing portion including a connector and at least one movable housing element that is movable between a retracted position and an expanded position, the at least one movable housing element being biased towards the expanded position and including an latch and an actuator connected to the latch, the connector being separably connectable to one of a first bottom housing portion and a second bottom housing portion, each of the first bottom housing portion and the second bottom housing portion including a catch positioned such that when the top housing portion is separably connected to one of the first and second bottom housing portions, and when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position, the actuator being actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element, the second bottom housing portion including a driving element operably mounted within the second bottom housing portion to drive a motion thereof.
According to another aspect, there is provided a transformable toy for use on a playing surface, the transformable toy comprising a top housing portion including at least one movable housing element that is movable between a retracted position and an expanded position, the at least one movable housing element including a catch and being biased towards the expanded position, and a bottom housing portion separably connected to the top housing portion, and including an latch mounted therein and an actuator connected to the latch, the latch being positioned within the bottom housing such that when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position, the actuator being actuatable when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element, the top housing portion and the bottom housing portion each being shaped such that when the top housing portion and bottom housing portion are separably connected, and when the at least one movable housing element is in the retracted position, the transformable toy is rollable along the playing surface about at least one rotational axis of the transformable toy, and when the at least one movable housing element is in the expanded position, the at least one movable housing element inhibits rolling of the transformable toy about the at least one rotational axis.
According to an additional aspect, there is provided a transformable toy for use on a toy playing surface, the transformable toy comprising a toy housing, a shaft assembly including a shaft rotatably mounted along a central axis of the toy housing and a flywheel mounted to the shaft, the shaft defining a spinning axis of the transformable toy and the flywheel being chargeable to drive a spinning motion of the transformable toy about the spinning axis such that the transformable toy is in a spinning orientation, an access aperture for charging the flywheel, at least one movable housing element that is movable between a retracted position and an expanded position, the at least one movable housing element including a catch and being biased towards the expanded position, a latch being positioned within the toy housing such that when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position, and an actuator connected to the latch and including an interaction element, the actuator being actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element, the actuator being positioned within the toy housing such that when the transformable toy is spinning at or below a set speed, the transformable toy will tip from the spinning orientation such that the interaction element of the actuator interacts with at least a portion of the toy playing surface and drives an actuation of the actuator to disengage the latch from the catch.
According to yet another aspect, there is provided a spinning toy kit comprising a transformable toy including at least one movable housing element that is movable between a retracted position and an expanded position, the at least one movable housing element including a catch and being biased towards the expanded position, an latch being positioned within the transformable toy such that when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position, and an actuator connected to the latch and being actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element. The transformable toy including a shaft assembly including a shaft rotatably mounted within the toy housing and positioned along a central axis thereof, and a flywheel mounted to the shaft, the flywheel including a gear portion, an access aperture for accessing the flywheel, and ripcord cardholder including a cardholder body including a recess formed to receive and removably hold at least one playing card associated with the spinning toy, a ripcord member including a length of triangular teeth extending along at least a portion of at least one side thereof, the ripcord member being movably mounted to a side of the card holder body and being sized for insertion into the access aperture of the transformable toy such that the triangular teeth of the ripcord member engage with the gear portion of the flywheel for driving a spinning motion of the flywheel.
According to yet another aspect, there is provided a modular arena for use with a spinning toy that is driven to spin via a ripcord with a length of triangular teeth, the modular arena comprising an inwardly disposed portion defining a surface for the spinning toy, at least one outer wall portions being interchangeably connectable to the inwardly disposed portion, and being shaped to at least partially surround the inwardly disposed portion, and at least one contact actuator connected to the at least one outer wall portion, the at least one contact actuator including a driving portion that is shaped to interface with the length of triangular teeth of the ripcord, and an actuating portion extending over a part of the surface for the spinning toy, the actuating portion being connected to the driving portion such that an interfacing of the ripcord and the driving portion actuates the actuating portion over the surface such that the actuating portion contacts the spinning toy and alters at least one of a spin speed and a direction of the spinning toy.
According to yet another aspect, there is provided a transformable toy that includes a top housing portion including a connector and at least one movable housing element that is movable between a retracted position and an expanded position. The at least one movable housing element is biased towards the expanded position and includes a catch. The connector is separably connectable to each of a first bottom housing portion and a second bottom housing portion. Each of the first bottom housing portion and the second bottom housing portion includes a latch and an actuator connected to the latch. The latch is positioned within each of the first bottom housing portion and second bottom housing portion such that when the top housing portion is separably connected to one of the first and second bottom housing portions, and when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position. When the at least one movable housing element is retained in the retracted position by the latch, the actuator is actuatable to disengage the latch from the catch and release the at least one movable housing element. The second bottom housing portion includes a driving element operably mounted within the second bottom housing portion for driving a motion of the second bottom housing portion and the top housing portion along a support surface. The first bottom housing portion either is devoid of any driving element for driving motion of the first bottom housing portion, or includes a driving element that is different than the driving element of the second bottom housing portion and is operably mounted within the first bottom housing portion for driving a motion of the first bottom housing portion and the top housing portion along the support surface.
In yet another aspect, a transformable toy is provided and includes a top housing portion including a connector and at least one movable housing element that is movable between a retracted position and an expanded position. The at least one movable housing element is biased towards the expanded position and includes a latch and an actuator connected to the latch. The connector is separably connectable to one of a first bottom housing portion and a second bottom housing portion. Each of the first bottom housing portion and the second bottom housing portion includes a catch positioned such that when the top housing portion is separably connected to one of the first and second bottom housing portions. When the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position. The actuator is actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element. The second bottom housing portion includes a driving element operably mounted within the second bottom housing portion to drive a motion thereof.
In yet another aspect, a transformable toy is provided for use on a playing surface. The transformable toy includes a top housing portion including at least one movable housing element that is movable between a retracted position and an expanded position. The at least one movable housing element includes a catch and being biased towards the expanded position. The transformable toy includes a bottom housing portion that is separably connected to the top housing portion. The bottom housing portion includes a latch mounted therein and an actuator connected to the latch. The latch is positioned within the bottom housing such that when the at least one movable housing element is moved to the retracted position. The latch engages the catch to retain the at least one movable housing element in the retracted position. The actuator is actuatable when the at least one movable housing element is retained in the retracted position to disengage the latch from the catch and release the at least one movable housing element. The top housing portion and the bottom housing portion each are shaped such that when the top housing portion and bottom housing portion are separably connected and when the at least one movable housing element is in the retracted position, the transformable toy is rollable along the playing surface about at least one rotational axis of the transformable toy, and when the at least one movable housing element is in the expanded position, the at least one movable housing element inhibits rolling of the transformable toy about the at least one rotational axis.
In yet another aspect, a transformable toy is provided for use on a toy playing surface. The transformable toy includes a toy housing, a shaft assembly, an access aperture, at least one movable housing element, a latch, and an actuator. The shaft assembly includes a shaft rotatably mounted along a central axis of the toy housing and a flywheel mounted to the shaft. The shaft defines a spinning axis of the transformable toy and the flywheel is chargeable to drive a spinning motion of the transformable toy about the spinning axis such that the transformable toy is in a spinning orientation. The access aperture is for charging the flywheel. The at least one movable housing element is movable between a retracted position and an expanded position. The at least one movable housing element includes a catch and being biased towards the expanded position. The latch is positioned within the toy housing such that when the at least one movable housing element is moved to the retracted position. The latch engages the catch to retain the at least one movable housing element in the retracted position. The actuator is connected to the latch and includes an interaction element. The actuator is actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element. The actuator is positioned within the toy housing such that when the transformable toy is spinning at or below a set speed, the transformable toy will tip from the spinning orientation such that the interaction element of the actuator interacts with at least a portion of the toy playing surface and drives an actuation of the actuator.
Embodiments will now be described, by way of example only, with reference to the attached Figures, wherein:
For simplicity and clarity of illustration, where considered appropriate, reference numerals may be repeated among the Figures to indicate corresponding or analogous elements. In addition, numerous specific details are set forth in order to provide a thorough understanding of the embodiment or embodiments described herein. However, it will be understood by those of ordinary skill in the art that the embodiments described herein may be practiced without these specific details. In other instances, well-known methods, procedures and components have not been described in detail so as not to obscure the embodiments described herein. It should be understood at the outset that, although exemplary embodiments are illustrated in the figures and described below, the principles of the present disclosure may be implemented using any number of techniques, whether currently known or not. The present disclosure should in no way be limited to the exemplary implementations and techniques illustrated in the drawings and described below.
Various terms used throughout the present description may be read and understood as follows, unless the context indicates otherwise: “or” as used throughout is inclusive, as though written “and/or”; singular articles and pronouns as used throughout include their plural forms, and vice versa; similarly, gendered pronouns include their counterpart pronouns so that pronouns should not be understood as limiting anything described herein to use, implementation, performance, etc. by a single gender; “exemplary” should be understood as “illustrative” or “exemplifying” and not necessarily as “preferred” over other embodiments. Further definitions for terms may be set out herein; these may apply to prior and subsequent instances of those terms, as will be understood from a reading of the present description. It will also be noted that the use of the term “a” or “an” will be understood to denote “at least one” in all instances unless explicitly stated otherwise or unless it would be understood to be obvious that it must mean “one”.
Modifications, additions, or omissions may be made to the systems, apparatuses, and methods described herein without departing from the scope of the disclosure. For example, the components of the systems and apparatuses may be integrated or separated. Moreover, the operations of the systems and apparatuses disclosed herein may be performed by more, fewer, or other components and the methods described may include more, fewer, or other steps. Additionally, steps may be performed in any suitable order. As used in this document, “each” refers to each member of a set or each member of a subset of a set.
The embodiments of the inventions described herein are exemplary (e.g., in terms of materials, shapes, dimensions, and constructional details) and do not limit by the claims appended hereto and any amendments made thereto. Persons skilled in the art will appreciate that there are yet more alternative implementations and modifications possible, and that the following examples are only illustrations of one or more implementations. The scope of the invention, therefore, is only to be limited by the claims appended hereto and any amendments made thereto.
Embodiment with Separate Top and Bottom Housing Portions:
In a first embodiment of the present disclosure shown in
The top housing portion 110 and the bottom housing portion 120 are each shaped to be separated (see
In an embodiment of the transformable toy 100 (shown in
Referring to the specific embodiment provided in
As presented above, the transformable toy 100 includes the top housing portion 110, where the top housing portion 110 includes at least one movable housing element 112 that is movable between retracted and expanded positions. In an embodiment (such as the embodiments provided in
In an embodiment, each of the at least one movable housing element 112 is mounted on a shaft 113 to define a pivot axis of the at least one movable housing element 112 for pivoting between the retracted and expanded positions. In a further embodiment, the at least one movable housing element 112 includes a spring 115 connected about the shaft 113 that defines the pivot axis. The spring 115 is positioned to bias the at least one movable housing element 112 towards the expanded position by applying a force which turns the at least one movable housing element 112 about the shaft 113. The spring 115 may be any suitable type of spring, such as a torsion spring that has a first end mounted to an element of the housing body 114 and a second end engaged with the at least one movable housing element 112.
In an embodiment, the at least one movable housing element 112 is at least one pair of movable housing elements that are pivotably connected to the top housing body 114 so as to pivot between retracted positions in which the pair of movable housing elements 112 are disposed close to the top housing body 114, and expanded positions where the movable housing elements 112 are disposed away from the top housing body 114 (see
In the specific embodiments provided in
In an embodiment, the horn element is connected to the central housing element 118 to pivot thereabout. In an additional embodiment, the catch 112a of the top housing portion 110 that is retained by the latch 130 of the bottom housing portion 120 is defined by the sharply curved end of the horn element 119.
It can be said generally that the at least one movable housing element 112 is provided for transforming the transformable toy 100 from a rollable, spherical form (as presented in
As presented above, the transformable toy 100 includes the bottom housing portion 120. In the above-noted embodiments where the bottom housing portion 120 has a hemispherical shape, the housing of the bottom housing portion 120 defines the spherical portion of the hemisphere, and a hollow cavity 126 is formed within the bottom housing portion 120.
In an embodiment, the bottom housing portion 120 of the first embodiment of the transformable toy 100 includes the latch 130 mounted within the bottom housing portion 120, and an actuator 140. The latch 130 is movable to a latched position (
The actuator 140 is movable to drive the latch 130 between the latched and release positions, in order to retain or release the catch 112a of the at least one movable housing element 112.
In the specific embodiment provided in
In the specific embodiment of
In an embodiment, the top and bottom housing portions 110, 120 each include at least one connector 150, 152 that interfaces with the connector 150, 152 of the other housing portion for separably connecting the top and bottom housing portions 110, 120 together. In the specific embodiment provided in
For inserting the projection 152a and flexible tab 152b into the connecting aperture 150a (to connect the top and bottom housing portions 110, 120), the top housing portion 110 is tilted at an angle and a flat face 110c of the top housing portion 110 is advanced transversely along the flat face 120c of the bottom housing portion 120 until the flexible tab 152b is bent into and is received by the connecting aperture 150a. Once the flexible tab 152b is securely received in the connecting aperture 150a, the top housing portion 110 is tilted down such that the projection 152a is received in the connecting aperture 150a of the top housing portion 110. The top and bottom housing portions 110, 120 are brought together until the flat faces 110c, 120c of each housing portion are in solid contact. In this separably connected state, the flexible tab 152b inhibits the separation of the flat faces 110c, 120c of the top and bottom housing portions 110, 120, while the projection 152a prevents relative, side-to-side motion of the top housing portion 110 and bottom housing portion 120.
In the embodiment shown in
In the embodiment shown, the latch 130 is mounted at the first free end 142a of the pivot member 142, and the actuator 140 is mounted at the second free end 142b. In this embodiment, the pivot member 142 is mounted on a shaft 143 to define a pivot axis of the pivot member 142. The pivot member 142 is pivotable about the pivot axis between a latched position shown in
In an additional embodiment, the actuator 140 includes an interaction element 144, which is positioned to interact with an object that is external to the transformable toy 100 in order to drive movement of the latch 130. In an embodiment, the interaction member is a first magnetically responsive element 145 that is positioned for interacting with a second magnetically responsive member 146 (
Thus, in the embodiment shown in
Interaction of the first magnetically responsive element 145 with the second magnetically responsive member 146 causes actuation of the actuator 140. As the transformable toy 100 is rolled along the support surface 102, if the transformable toy 100 reaches a selected orientation as shown in
In a specific embodiment (shown in
In a further embodiment where the interaction element 144 is the first magnetically responsive element 145, the bottom housing portion 120 may include a thin-wall portion 125a. The thin-wall portion 125a is formed on a lower section of the hemispherical form of the bottom housing portion 120. The thin-wall portion 125a is shaped with a thickness such that the second magnetically responsive member 146 can act on, and attract the first magnetically responsive element 145 of the pivot member 142 through the thin-wall portion 125a. The thin-wall portion 125a is positioned along the bottom housing portion 120 such that when the pivot member 142 is in an unactuated position, the first magnetically responsive element 145 is spaced apart from the thin-wall portion 125a, and when the second magnetically responsive element is brought into proximity to the thin-wall portion 125a on the outside of the transformable toy 100, the first magnetically responsive element 145 is attracted to the second magnetically responsive element 146 and moves towards it, driving the pivot member 142 to move from the unactuated to an actuated position, thereby moving the latch 130 from the latching position to the release position.
In an alternate embodiment, the bottom housing portion 120 includes an aperture in place of the thin-wall portion 125a. In this embodiment, the first magnetically responsive element 145 of the pivot member 142 will be attracted to the second magnetically responsive element 146 without there being any part of the bottom housing portion 120 between them.
Providing either the thin-wall portion 125a, or the aforementioned aperture permits the first magnetically responsive element 145 to be positioned closer to the second magnetically responsive element 146 when the pivot member 142 is in the unactuated position, then would be possible if the wall of the bottom housing portion 120 did not have the thin-wall portion 125a or the aperture. This may, in some embodiments, increase the distance that the transformable toy 100 can be from the second magnetically responsive element 146 while still applying a sufficiently strong attractive force on the second magnetically responsive element 146 to drive movement of the first magnetically responsive element 145 thereby moving the latch 130 to the release position.
In an embodiment of the transformable toy 100, the “transforming” features of the transformable toy 100 are defined in both the top housing portion 110 and the bottom housing portion 120. In this embodiment, the at least one movable housing element 112, as presented above, defines at least one top movable housing element. The bottom housing portion 120 includes at least one bottom movable housing element 123 that is movable between a retracted position (see
In the specific embodiment provided in
In an embodiment, the at least one bottom movable housing element 123 may be biased towards the exposed position by a spring 179. The spring 179 may be any suitable type of spring such as a torsion spring mounted about a shaft 177 that defines a pivot axis of the at least one bottom movable housing element 123. The spring 179 is positioned to bias the at least one bottom movable housing element 123 towards the exposed position by applying a force which pivots the at least bottom movable housing element 123 about the shaft 177 towards the exposed position.
It will be noted that, when the bottom movable housing elements 123 move to their expanded positions, they may push the transformable toy 100 so as to space the first magnetically responsive element 145 away from the second magnetically responsive element 146, as shown in
Embodiments of Spinning Transformable Toy:
In several embodiments of the transformable toy which are described in greater detail below (including transformable toy 200a, transformable toy 200b, transformable toy 400 and transformable toy 500) the transformable toy 200a, 200b, 400, 500 is formed to be spun via a flywheel or similar driving element, about a spinning axis S1 of the transformable toy 200a, 200b, 400, 500, on a playing surface 300. Referring to
Referring to
As a spin speed of the transformable toy 200a, 200b, 400, 500 decreases (due to gravity and the weight of the toy itself) the angular momentum of the transformable toy 200a, 200b, 400, 500 decreases, and a rate of precession of the toys spinning axis (S1) will increase, thereby causing the spinning axis S1 of the transformable toy 200a, 200b, 400, 500 to become progressively less vertical (see
In an embodiment such as the embodiment provided in
In an embodiment, the set speed is defined such that when the transformable toy 200a, 200b, 400, 500 is spinning about the spinning axis S1, at or below the set speed, the transformable toy 200a, 200b, 400, 500 will tip from the spinning orientation and the interaction element of the actuator will interact with at least a portion of the toy playing surface and drives an actuation of the actuator to disengage the latch from the catch.
In an additional embodiment, the spinning speed is defined such that the transformable toy 200a, 200b, 400, 500 will tip from the spinning orientation to such an extent that the spinning motion of the transformable toy 200a, 200b, 400, 500 is stopped.
The set speed of the transformable toy 200a, 200b, 400, 500 can be further defined as the speed at which a component of the angular momentum of the transformable toy 200a, 200b, 400, 500 that is maintaining the transformable toy 200a, 200b, 400, 500 in the spinning orientation is overcome by a component of the weight of the transformable toy 200a, 200b, 400, 500 that is pulling the transformable toy 200a, 200b, 400, 500 out of the spinning orientation.
Several embodiments of the transformable toy that can be driven to spin will now be described in greater detail, with reference to the drawings.
In another embodiment of the transformable toy of the present disclosure, the transformable toy is shown at 200a and includes a top housing portion 210 which is connectable to one of at least first and second bottom housing portions 220, 230. The top housing portion 210 of the transformable toy 200a includes a connector 211 and at least one movable housing element 212 that is movable between a retracted position (see
The at least one movable housing element 212 is biased towards the expanded position and includes a catch 212a. In this embodiment, the connector 211 is formed to be separably connectable to one of a first bottom housing portion 220 and a second bottom housing portion, the second bottom housing portion 230 including a driving element 260 operably mounted within the second bottom housing portion 230 to drive a motion of the second bottom housing portion.
The first bottom housing portion 220 and the second bottom housing portion 230 each include a latch 222, 232 and an actuator 224, 234 that is connected to the latch 222, 232. Within each of the first and second bottom housing portions 220, 230, the latch 222, 232 is positioned such that when the top housing portion 210 is separably connected to one of the bottom housing portions (first and second bottom housing portions 220, 230) via the connector 211, and when the at least one movable housing element 212 is moved to the retracted position, the latch 222, 232 engages the catch 212a to retain the at least one movable housing element 212 in the retracted position. As with the first embodiment of the transformable toy 200a, the second embodiment of the transformable toy 200a includes an actuator 224, 234 that is actuatable, when the at least one movable housing element 212 is retained in the retracted position, to disengage the latch 222, 232 from the catch 212a and release the at least one movable housing element 212.
In an embodiment of the transformable toy 200a, the top housing portion 210 and each of the first bottom housing portion 220 and second bottom housing portion 230 are individually shaped such that when the top housing portion 210 and one of the first and second bottom housing portions 220, 230 are separably connected, and when the at least one movable housing element 212 is in the retracted position, the transformable toy 200a is rollable along a playing surface 290 about at least one rotational axis of the transformable toy 200a. In this way, when the at least one movable housing element 212 of the top housing portion 210 is moved to the expanded position, the at least one movable housing element 212 inhibits rolling of the transformable toy 200a about the at least one rotational axis.
In the embodiment of the transformable toy 200a shown in
Referring to the specific embodiment provided in
In an embodiment (such as the embodiments provided in
The at least one movable housing element 212 may be biased towards the expanded position by a spring 215. The spring 215 may be any suitable type of spring such as a torsion spring mounted about a shaft 213 that defines a pivot axis of the at least one movable housing element 212 and may be similar to the spring 115. The spring 215 is positioned to bias the at least one movable housing element 212 towards the expanded position by applying a force which pivots the at least one movable housing element 212 about the shaft 213 towards the expanded position.
In an embodiment, the at least one movable housing element 212 is one or more pairs of movable housing elements that are pivotably connected to the top housing body 214 so as to pivot between retracted positions in which the pairs of movable housing elements are disposed close to the top housing body 214, and expanded positions where the movable housing elements are disposed away from the top housing body 214.
In the specific embodiments provided in
In the same embodiments, the at least one movable housing element 212 also includes a horn element 219 that is pivotably mounted to either the central housing element 217 or the top housing body 214 for movement between the retracted and expanded positions. The horn element 219 has a roughly circular, arc-shape with a sharply curved end-portion. As shown in
In an additional embodiment, the catch 212a of the top housing portion 210 that is retained by the latch 222, 232 of the bottom housing portion is defined by the sharply curved end of the horn element 219.
It can be said generally that the at least one movable housing element 212 is provided for transforming the transformable toy 200a from a rollable, spherical shape to a character shape as presented in
Referring to
In the embodiment provided in
In an embodiment, the catch 212a is formed as part of the horn element 219, and the through-hole is positioned on a front side of the bottom housing portion to receive a portion of the horn element 219.
In an embodiment, each of the first and second bottom housing portions 220, 230 include a connecting element 252, 253 that corresponds to, and interfaces with, the connector 211 of the top housing portion 210 for connecting the top and one of the first and second bottom housing portions 220, 230. Through the connector 211 and the connecting element 252, 253, the top housing portion 210 can be separably coupled to either the first bottom housing portion 220 or second bottom housing portions 230.
In the specific embodiment provided in
In the embodiments of the first and second bottom housing portions 220, 230 provided in
In an embodiment, the pivot member 242 is positioned in the interior of each of the first and second bottom housing portions 220, 230. The pivot member 242 has a first free end 242a at which the latch 222, 232 is mounted, and the second free end 242b at which the interaction element 244 is mounted.
In this embodiment, a hollow portion of the pivot member 242 is mounted about the shaft shown at 243 to define a pivot axis of the pivot member 242. The pivot member 242 is pivotable about the pivot axis in both a clockwise and anti-clockwise direction. The pivot member 242 is pivoted in a clockwise direction (in the views shown in
In an additional embodiment, the interaction element 244 of the actuator 224, 234 is a first magnetically responsive element 245 that is positioned on the second free end 242b of the pivot member for interacting with a second magnetically responsive element 246, wherein at least one of the first and second magnetically responsive elements 245 and 246 is a magnet. In this way, an interaction of the first magnetically responsive element 245 with the second magnetically responsive element 246 generates an actuation of the actuator 224, 234.
In a specific embodiment the first magnetically responsive element 245 may be a magnet and the second magnetically responsive element 246 is a strip of steel that is included in a toy support member 291 (
In a further embodiment of the embodiment where the interaction element 244 is the first magnetically responsive element 245, at least one of the first and second bottom housing portions 220, 230 includes a thin-wall portion 270. As described above in relation to the thin-wall portion 125a of the bottom housing portion 120, the thin-wall portion 270 is formed on a lower section of the hemispherical form of the first and/or second bottom housing portion 220, 230. The thin-wall portion 270 is shaped with a thickness such that the second magnetically responsive element 246 can attract the magnet of the pivot member 242 through the thin-wall portion 270, thereby driving the pivot member 242 from the unactuated position to an actuated position and bringing the magnet closer to the thin-wall portion 270.
In an embodiment, at least one of the first of second bottom housing portions 220, 230 includes an aperture in place of the thin-wall portion 270.
In an embodiment of the transformable toy 200a shown in
In the embodiment provided in
In an additional embodiment of the transformable toy 200a, the second bottom housing portion 230 also includes an access aperture 280 for accessing and driving a motion of the driving element 260. The access aperture 280 is sized for insertion therethrough of a charging element for driving a motion of the driving element 260 within the second bottom housing portion 230.
In an additional embodiment, at least one of the first bottom housing portion 220 or second bottom housing portion 230 of the transformable toy 200a include at least one bottom movable housing element 233. In this embodiment, the at least one movable housing element 212 is at least one top movable housing element. The at least one bottom movable housing element 233 of the first or second bottom housing portions 220, 230 is formed to be movable between a retracted position and an exposed position. The at least one bottom movable housing element 233 being biased towards the exposed position and is operatively connected to the latch 222, 232 such that when the latch 232 engages the catch 212a of the top movable housing element, the at least one bottom movable housing element 233 is retained in the retracted position. In this way, the actuator 224, 234 of either the first or second bottom housing portions is also actuatable to disengage the latch 222, 232 from the catch 212a to release the at least one bottom movable housing element 233.
In a further embodiment of the bottom housing portions 220, 230 including at least one bottom movable housing element 233, the at least one bottom movable housing element 233 is mounted on a shaft 277 to define a pivot axis of the at least one bottom movable housing element 233 for pivoting between the retracted and exposed positions. In a further embodiment, the at least one bottom movable housing element 233 includes a spring 279 connected about the shaft 277 that defines the pivot axis. The spring 279 is positioned to bias the at least one bottom movable housing element 233 towards the exposed position by applying a force which turns the at least one bottom movable housing element 233 about the shaft 277. The spring 279 may be any suitable type of spring, such as a torsion spring that has an end engaged with the at least one bottom movable housing element 233.
In the specific embodiment provided in
In a further embodiment of the second bottom housing element including an access aperture 280, the driving element 260 of the second bottom housing portion 230 is a shaft assembly 270 including a shaft 272 rotatably mounted within the second bottom housing portion 230, along a central axis of the second bottom housing portion, and a flywheel 276 mounted to the shaft 272.
In the specific embodiment provided in
In alternative embodiments, the gear element 278, flywheel 276 and shaft 272 are formed as an integral piece.
In an embodiment, the second bottom housing portion 230 includes a downward projection 252a formed on a bottom extent of the second bottom housing portion 230 which defines a spin point about which the second bottom housing portion 230 is driven to spin. In this embodiment, the spin point is positioned such that as the transformable toy 200a is driven to spin about a spinning axis by the flywheel 276, the transformable toy 200a will spin about the spin point.
In an alternate embodiment, the bearing 273 of the second bottom housing portion 230 extends through the second bottom housing portion 230 and defines the spin point of the transformable toy about which the transformable toy 200a will spin. In this way, the shaft and the central axis of the transformable toy 200a defines the spinning axis of the transformable toy 200a.
In the specific embodiment provided in
In some embodiments, the spinning axis is defined along the shaft 272 of the shaft assembly 270.
In an additional embodiment where the spinning axis is defined along the shaft of the shaft assembly 270, the shaft is rotatably mounted within the second bottom housing portion 230 such that an end of the shaft extends through the toy housing to define spin point on which the transformable toy 200a spins about the spinning axis.
In an embodiment, the transformable toy 200a includes a weighted section that is disposed eccentrically about the spinning axis S1. The weighted section is relatively positioned within the second bottom housing portion 230 such that when the transformable toy 200a (including the second bottom housing portion 230) is spinning about the spinning axis S1 at or below the set speed, the transformable toy 200a will tip somewhat, and may continue spinning. Once tipped, if the transformable toy 200a reaches an orientation in which the first magnetically responsive member 245 is within a selected proximity of the second magnetically responsive member 246, the magnetic attraction therebetween will cause the pivot member 242 to be actuated from the latched position shown at 299 in solid lines in
In the specific embodiments provided in
In an alternate embodiment of the transformable toy 200a that includes the top housing portion 210 connectable to one of the first or second bottom housing portion 220, 230, the positioning of the latch and catch for retaining and releasing the at least one movable housing element is altered.
In this embodiment, the transformable toy includes a top housing portion that is connectable to one of at least first and second bottom housing portions. In this embodiment, the top housing portion includes the connector and at least one movable housing element that is movable between a retracted position and an expanded position. The at least one movable housing element is biased towards the expanded position and includes a latch and an actuator connected to the latch. The connector of the top housing portion is separably connectable to one of a first bottom housing portion and a second bottom housing portion, where each of the first bottom housing portion and the second bottom housing portion include a catch that is positioned such that when the top housing portion is separably connected to one of the first and second bottom housing portions, and when the at least one movable housing element is moved to the retracted position, the latch engages the catch to retain the at least one movable housing element in the retracted position. The actuator is actuatable, when the at least one movable housing element is retained in the retracted position, to disengage the latch from the catch and release the at least one movable housing element. The second bottom housing portion includes a driving element operably mounted within the second bottom housing portion for driving a motion of the second bottom housing portion and the top housing portion along a support surface. The first bottom housing portion either is devoid of any driving element for driving motion of the first bottom housing portion, or includes a driving element that is different than the driving element of the second bottom housing portion and is operably mounted within the first bottom housing portion for driving a motion of the first bottom housing portion and the top housing portion along the support surface.
Referring to the embodiments provided in
In an embodiment, the toy housing 410 and at least one movable housing element 412 are formed such that when the at least one movable housing element 412 is in the retracted position, a collective shape of the transformable toy 400 is substantially spherical.
In an embodiment, the toy housing 410 includes a housing body 414 to which the at least one movable housing element 412 is pivotably mounted. In this embodiment, the at least one movable housing element 412 is pivotably mounted so as to pivot between a retracted position in which the at least one movable housing element 412 is disposed close to the housing body 414, and an expanded position where the at least one movable housing elements 412 is disposed away from the housing body 414.
In an embodiment, each of the at least one movable housing element 412 is mounted on a shaft 413 to define a pivot axis of the at least one movable housing element 412 for pivoting between the retracted and expanded positions. In a further embodiment, the at least one movable housing element 412 includes a spring 415 connected about the shaft 413 that defines the pivot axis. The spring 415 is positioned to bias the at least one movable housing element 412 towards the expanded position by applying a force which turns the at least one movable housing element 412 about the shaft 413. The spring 415 may be any suitable type of spring, such as a torsion spring that has a first end mounted to an element of the housing body 414 and a second end engaged with the at least one movable housing element 412.
In the specific embodiments provided in
In an additional embodiment, the catch 412a of the at least one movable housing element 412 is defined by the sharply curved end of the horn element 419.
In an embodiment, the latch 422 and actuator 434 of the transformable toy 400 are formed on a pivot member 442 with free first and second ends 442a, 442b, the pivot member 442 being pivotally mounted within the toy housing 410 to pivot relative to the toy housing 410. The free first end 442a of pivot member 442 includes the latch 422 and the free second end 442b of the pivot member 442 includes an interaction element 444.
In this embodiment, the pivot member 442 is positioned in the interior of the toy housing 410, and the pivot member 442 is mounted about a pivot shaft 498 to define a pivot axis of the pivot member 442. The pivot member 442 is pivotable about the pivot axis in both a clockwise and anti-clockwise direction, to move the latch 422 between a latched position and an unlatched (or release) position, respectively.
In an additional embodiment, a spring 499 is connected about the pivot shaft 498 on which the pivot member 442 is mounted. The spring 499 is positioned to bias the pivot member 442 towards the latched position by applying a force which turns the pivot member 442 about the pivot shaft 498 towards the latched position.
In an additional embodiment, the interaction element 444 of the actuator 434 is a first magnetically responsive element 445 that is positioned on the free second end 442b of the pivot member for interacting with a second magnetically responsive element 446, wherein at least one of the first and second magnetically responsive elements 445, 446 is a magnet. In this way, an interaction of the first magnetically responsive element 445 with the second magnetically responsive element 446 produces an actuation of the actuator 434. In this same embodiment, the second magnetically responsive element 446 extends along or underneath at least a portion of the toy playing surface 490. The first magnetically responsive element 445 is mounted on a lower section of the free second end 442b of the pivot member 442, while the latch 422 is mounted at the free first end of the pivot member 442.
In a further embodiment of the embodiment where the interaction element 444 is the first magnetically responsive element 445, the toy housing 410 may include a thin-wall portion 425. As described above in relation to the thin-wall portion 125a of the bottom housing portion 120, the thin-wall portion 425 is formed on a lower section of the spherical form of the toy housing 410. The thin-wall portion 425 is shaped with a thickness such that the second magnetically responsive element 446 can act on, and attract the magnet of the pivot member 442 through the thin-wall portion, thereby driving the pivot member 442 from the unactuated to an actuated position and brining the magnet closer to the thin-wall portion 425.
In an embodiment, the toy housing 410 includes an aperture in place of the thin-wall portion 425. In this embodiment, the first magnetically responsive element 445 of the pivot member 442 will be attracted to the second magnetically responsive element 446 without having a structure between.
In an embodiment, the toy housing 410 is a continuous toy housing that contains the shaft assembly 470. By mounting the shaft assembly 470 within the toy housing 410, the transformable toy 400 can be driven to spin about the spinning axis S1 of the transformable toy 400 via the spinning of the flywheel.
In the specific embodiment of the transformable toy 400 provided in
In an embodiment, the bearing 473 in the toy housing 410 extends through the toy housing 410 and projects through a bottom outer surface of the toy housing 410 to define a spin point formed on a bottom extent of the toy housing 410. The spin point is positioned such that as the transformable toy 400 is driven to spin about the spinning axis S1 by the flywheel 476, the transformable toy 400 will spin about the spin point.
In an additional embodiment where the spinning axis S1 is defined along the shaft 472 of the shaft assembly 470, the shaft 472 is rotatably mounted within the second bottom housing portion such that an end of the shaft 472 extends through the toy housing 410 to define spin point on which the transformable toy 400 spins about the spinning axis S1.
In an embodiment, the transformable toy 400 includes a weighted section that is disposed eccentrically about the spinning axis S1. The weighted section is relatively positioned within the toy housing 410 such that when the transformable toy 400 is spinning about the spinning axis S1 at or below the set speed, the transformable toy 400 will tip from the spinning orientation such that the spinning motion of the transformable toy 400 is stopped, and such that the interaction element 444 of the actuator 434 is interacted with.
In an embodiment, the transformable toy 400 is formed such that the weighted section is constituted by the latch 422 and actuator 434 on the pivot member 442. In this embodiment, the pivot member 442 including the latch 422 and actuator 434 are positioned offset from the central, spinning axis S1 of the transformable toy 400.
While the above embodiment was described with specific to one toy housing 410, it will be readily understood that the above-described mechanism of the toys spinning motion, and the opening of the toy at low spinning speeds, can be applied to any of the above embodiments where the transformable toy 400 includes multiple housing portions (e.g., the top housing portion and the second bottom housing portion) and where one of the multiple housing portions includes a flywheel 476 or similar driving element (e.g., the flywheel 476 in the second bottom housing portion).
In an additional embodiment, the transformable toy is a transformable toy 500 that includes a toy housing 510 and a shaft 572 assembly with a flywheel 576 for imparting a spinning motion to the transformable toy 500. In this embodiment, the toy 500 can be utilized as a spinning top as part of a spinning toy kit 501.
In an embodiment, spinning toy kit 501 is employed as part of a larger board and spinning top game, where the board and spinning top game includes playing cards associated with different game events and game characters, and where the spinning toy of the spinning toy kit 501 includes at least one spinning top that is associated with one or more playing cards of the game.
In an embodiment of the spinning toy kit 501 shown in
The at least one movable housing element 512 is mounted on a shaft 513 to define a pivot axis of the at least one movable housing element 512 for pivoting between the retracted and expanded positions. In a further embodiment, the at least one movable housing element 512 includes a spring 515 connected about the shaft 513 that defines the pivot axis. The spring 515 is positioned to bias the at least one movable housing element 512 towards the expanded position by applying a force which turns the at least one movable housing element 512 about the shaft 513 The spring 515 may be any suitable type of spring, such as a torsion spring that has a first end mounted to an element of the toy housing 510 and a second end engaged with the at least one movable housing element 512.
In addition, the transformable toy 500 includes a shaft assembly including a shaft 572 rotatably mounted within the toy housing 510 and positioned along a central axis C1 of the toy housing 510. In the specific embodiment provided in
In this same embodiment the spinning toy kit 501 also includes a ripcord cardholder 560 including a cardholder body 562 with a card holder formed to receive and removably hold at least one playing card associated with the spinning toy, and a ripcord member 564 including a length of triangular teeth 565 extending along at least a portion of at least one side thereof. The ripcord member 564 is movably mounted to a side of the card holder body and is sized for insertion into the access aperture 580 of the transformable toy 500 such that the triangular teeth 565 of the ripcord member 564 engage with the gear portion 578 of the flywheel 576 for driving a spinning motion of the flywheel 576.
In an additional embodiment, the toy 500 includes a downward projection formed on a bottom extent of the bearing 573 which defines a spin point 569 about which the toy housing 510 is driven to spin. In this embodiment, the spin point 569 is positioned such that as the transformable toy 500 is driven to spin about the central axis C1 by the flywheel 576, the transformable toy 500 will spin about the spin point 569.
In the specific embodiments provided in
In an additional embodiment, the catch 512a of the at least one movable housing element 512 that is retained by the latch 522 is defined by the sharply curved end of the horn element 519.
In an embodiment such as the embodiment provided in
In this embodiment, a hollow portion of the pivot member 552 is mounted about a pivoting shaft to define a pivot axis of the pivot member 552. The pivot member 552 is pivotable about the pivot axis in both a clockwise and anti-clockwise direction. The pivot member 552 is pivoted in a clockwise direction (in the view shown in
In an additional embodiment, the interaction element 555 of the actuator 535 is a first magnetically responsive element 545 that is positioned on the free second end 552b of the pivot member 552 for interacting with a second magnetically responsive element 546, wherein at least one of the first and second magnetically responsive elements 545 and 546 is a magnet. In this way, an interaction of the first magnetically responsive element 545 with a second magnetically responsive element drives an actuation of the actuator 535.
In an embodiment where the interaction element 555 is a first magnetically responsive element 545, the first magnetically responsive element 545 is a solid magnet. In this same embodiment, the second magnetically responsive element is defined by at least a portion of the toy playing surface 590 that is a magnetic portion 590a of the toy playing surface 590. As shown in the specific example of
In an embodiment of the transformable toy 500, the access aperture 580 of the toy housing 510 extends between opposing sides of the toy housing 510. The access aperture 580 is positioned in a lower half of the toy housing 510 such that some of the triangular teeth 565 of the gear element 578 at least partially extending into a path defined along the length of the access aperture 580. In this way, a suitably sized ripcord member 564 with a length of triangular teeth 565 can be inserted along the access aperture 580 such that the teeth of the gear element 578 interface with the teeth of the charging element. The interfacing of the gear element 578 and charging element causes the gear element 578 and shaft 572 to rotate inside the toy housing. The flywheel will then rotate with the shaft 572 and from this rotation, can transfer a spinning motion to the toy housing 510 when the transformable toy 500 is placed on the playing surface 590.
In the embodiment provided in
In the embodiments provided in
In this same embodiment, the ripcord cardholder 560 includes a rectangular cardholder body 562. The cardholder body 562 includes a connecting projection 567 that extends outward from a surface of the cardholder body 562, where the projection 567 that is sized to receive in the connecting aperture 563 of the ripcord member 564. The connecting projection 567 of the cardholder body 562 is rotatably connected within the connecting aperture 563 of the ripcord member 564 such that the ripcord member 564 can be pivoted relative to the cardholder body 562. The cardholder body 562 also includes a substantially planar surface 562a and a plurality of tabs 566 that are slightly raised from the surface of the substantially planar surface 562a. In this way, a portion of the at least one playing card can be removably secured on the cardholder by sliding a portion of the at least one playing card between one of the plurality of tabs 566 and the substantially planar surface 562a.
In the embodiments of the transformable toy where the transformable toy includes a driving element, and where the driving element imparts a spinning motion to the transformable toy, the toy can be utilized as a spinning top for spinning games. In an embodiment, the spinning, transformable toy is used as a battling, spinning toy that is spun in proximity to other spinning toys, and contacts the other spinning toys.
In some embodiments, the transformable toy 200a, 200b, 400, 500 is defined as a battling, spinning toy 600. In an additional embodiment, the battling, spinning toy 600 includes at least one removably connectable battling accessory for altering an appearance, shape, weight or spinning characteristic of the spinning toy 600.
Referring to the embodiments provided in
The specific examples provided in
In the embodiments where the transformable toy includes an adaptor ring, the toy housing is formed to include circumferential channel 720 sized to extend around at least half of the circumference of the transformable toy. The circumferential channel 720 is sized for receiving and removably holding an adaptor ring. In this way, multiple adaptor rings 710 can be interchangeably provided to the transformable toy to realize different appearances and spinning characteristics of the toy.
In the specific embodiment provided in
In the specific embodiment provided in
Embodiments of Toy Arena:
In an additional aspect of the present disclosure, there is provided a modular arena 800 that includes one or more modular components. The modular arena 800 is formed for use in a battling spinning top game, where multiple battling, spinning toys are spun in proximity to one another within the arena, and where the spinning toys spin and contact each other as part of a battling game.
In an embodiment of the modular arena 800, the modular arena 800 is provided for use with at least one spinning toy that is driven to spin via a ripcord member 810 including a length of triangular teeth extending along at least one edge of the ripcord member 810. The modular arena 800 includes an inwardly disposed portion 820 that defines a playing surface 822 for the at least one spinning top. The modular arena 800 also includes at least one outer wall portion 830. In this embodiment, the at least one of the outer wall portion 830 includes a contact actuator 840 mounted to the at least one outer wall portion 830. The contact actuator 840 includes a driving portion 842 that interfaces with the triangular teeth of the ripcord member 88, and an actuating portion 844 that extends over the playing surface 822 of the modular arena 800. The actuating portion 844 is connected to the driving portion 842 such that an interaction of the ripcord member 810 and the driving portion 842 drives an actuation of the actuating portion 844 between at least a first position and a second position about the surface of the modular arena. The actuating portion 844 is connected to the driving portion 842 such that an interfacing of the ripcord 810 and the driving portion 842 actuates the actuating portion 844 between the first position and the second position about the surface such that the actuating portion 844 contacts the spinning toy and alters at least one of a spin speed and a direction of the spinning toy.
In an embodiment, the ripcord member 810 the drives the at least one spinning top to spin is the ripcord member 564 of the ripcord cardholder 560 described previously.
In an additional embodiment, the at least one outer wall portion 830 is removably connectable to the inwardly disposed portion 820 of the modular arena 800 to at least partially surround a portion of the playing surface 822.
In an embodiment, the plurality of spinning tops are a plurality of the transformable toys as described herein, where the transformable toys can be any one or combinations of the various spinnable embodiments of the transformable toy as disclosed herein (including transformable toy 200a, transformable toy 200b, transformable toy 400 and transformable toy 500.
In an embodiment, the modular arena 800 includes one or more modular components that are removably connectable to and about the inwardly disposed portion 820 of the modular arena 800. In an additional embodiment, the one or more modular components of then modular arena 800 includes at least one contact actuator 840, where the contact actuator 840 is operated by a ripcord member 810 that is also used for driving at least one of the plurality of spinning tops to spin.
In the specific embodiment of the modular arena 800 provided in
In the specific embodiment of
In the specific embodiment provided in
In an embodiment such as the embodiment provided in
In an additional embodiment, at least one of the interchangeable wall portions 830 includes a contact actuator 840 as described above.
In the embodiment shown in
In many embodiments, it has been shown for the interaction element to be a first magnetically responsive member, which interacts with a second magnetically responsive member that is external to the transformable toy. It will be noted, however, that the interaction element could be some other type of member, such as a projection member on the pivot arm, which projects slightly downward from the immediately adjacent outer surface of the transformable toy, such that dropping the transformable toy would cause the projection member to hit whatever support surface the transformable toy is dropped on, which in turn drives the projection member upwardly into the body of the transformable toy. Driving the projection member upwardly may be the movement that, in turn, drives the pivot arm to pivot in such a way as to move the latch to the unlatched or release position.
In all the embodiments shown in the figures the transformable toy was positionable in a position in which it is a sphere, which permits the transformable toy to be rolled along a support surface. The transformable toy may be said to be in a rollable state, when it has the spherical shape. However, it will be noted that the transformable toy could be shaped differently than a sphere in the rollable state. For example, the transformable toy could be shaped in a cylindrical form. Alternatively the transformable toy could be shaped as a polyhedron with a sufficient number of faces and corners that it approximates a sphere and is rollable. As yet another alternative the transformable toy in the rollable state, could be shaped as a vehicle with wheels, and is therefore rollable.
The above-described embodiments are intended to be examples of the present disclosure and alterations and modifications may be affected thereto, by those of skill in the art, without departing from the scope of the disclosure that is defined solely by the claims appended hereto.
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