US20260166446A1
TRANSFORMABLE TOY SET
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
SPIN MASTER LTD.
Inventors
Chris ENDERSCHMIDT, David SMALL, Graham BROWNING, Mollie JAMESON, Emma J.E. PEAT
Abstract
In an aspect, a transformable toy set is provided and includes, a transformable member, a cover layer, a plurality of drums and a plurality of tethers, and a motor. The cover layer is movable between extended and retracted positions to cover or expose the transformable member. Drum rotation draws the tethers to pull the cover layer towards the retracted position. The motor drives rotation of each drum at a respective point in time. The respective point in time and the drum perimeter for a first drum and for a final drum are selected based on first and final travel paths of an end of a first tether and an end of a final tether. The first travel path is longer than the final travel path.
Figures
Description
FIELD
[0001]The specification relates generally to transformable toys, and more particularly to a transformable toy with a cover layer that is removable.
BACKGROUND OF THE DISCLOSURE
[0002]There is a continuing desire to provide toys that provide an element of surprise to the user. Thus, some toys have the ability to transform from one configuration to another. While these toys are entertaining, there is a continuing need for new ways for toys to transform in some way for the user.
SUMMARY OF THE DISCLOSURE
[0003]In a first aspect, a transformable toy set is provided and includes, a transformable member, a cover layer, a plurality of drums and a plurality of tethers, and a drive source. The cover layer is movable between an extended position in which the cover layer covers at least a portion of the transformable member, and a retracted position in which the cover layer exposes at least a portion of the at least a portion of the transformable member. Each of the plurality of tethers has a first end that is connected to a respective one of the plurality of drums, and has a second end that is connected to a respective point on the cover layer. Rotation of the plurality of drums draws the plurality of tethers so as to draw each of the second ends of the plurality of tethers through respective travel paths so as to pull the cover layer from the extended position towards the retracted position. The drive source having an operative connection to each drum of the plurality of drums to drive rotation of each drum at a respective point in time for each drum, and wherein each drum has a drum perimeter. The respective point in time and the drum perimeter for a first drum from the plurality of drums are selected to draw the second end of a first tether of the plurality of tethers through a first travel path of the respective travel paths. The respective point in time and the drum perimeter for a final drum from the plurality of drums are selected to draw the second end of a final tether of the plurality of tethers through a final travel path of the respective travel paths. The first travel path is longer than the final travel path.
[0004]In a second aspect, a transformable toy set is provided and includes a base, a cartridge that is releasably mounted to the base, a transformable member positioned on the cartridge, a cover layer, at least one drum mounted in the cartridge and at least one tether, and a drive source. The cover layer is movable between an extended position in which the cover layer covers at least a portion of the transformable member, and a retracted position in which the cover layer exposes at least a portion of the at least a portion of the transformable member. Each of the at least one tether has a first end that is connected to a respective one of the at least one drum, and has a second end that is connected to a respective point on the cover layer. The drive source has an operative connection to each of the at least one drum to drive rotation of each of the at least one drum to draw each second end of the at least one tether through a respective travel path so as to pull the cover layer towards the retracted position. The transformable member and the cartridge are removable together as a unit from the base when the cover layer is in the extended position on the transformable member. The transformable member is removable from the cartridge while the cartridge remains mounted to the base when the cover layer is in the retracted position.
BRIEF DESCRIPTIONS OF THE DRAWINGS
[0005]For a better understanding of the various embodiments described herein and to show more clearly how they may be carried into effect, reference will now be made, by way of example only, to the accompanying drawings.
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DETAILED DESCRIPTION
[0034]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.
[0035]The terms ‘comprising’ and ‘including’ and their various conjugations (e.g. ‘comprises’) will be understood to be inclusive and open-ended, and not exclusive. This means that if an element A includes or comprises an element B, it will be understood that element A could include or comprise other elements in addition to including or comprising element B. The term ‘having’ and its various conjugations are also to be understood as being open-ended in the same way as ‘comprising’ and ‘including’. These terms are not to be interpreted to exclude the presence of other features, steps or components.
[0036]As used herein, the terms “about” and “approximately” are meant to cover variations that may exist in the upper and lower limits of the ranges of values, such as variations in properties, parameters, and dimensions.
[0037]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 such 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”.
[0038]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.
[0039]As used in this document, “attached” in describing the relationship between two connected parts includes the case in which the two connected parts are “directly attached” with the two connected parts being in contact with each other, and the case in which the connected parts are “indirectly attached” and not in contact with each other, but connected by one or more intervening other part(s) between.
[0040]As used in this document, terms describing relative positions of elements such as ‘top’, ‘upper’, ‘bottom’, ‘lower’, or other analogous terms will be understood to refer to the placement of the described element during use of the apparatus of which it is a part unless the context would make it clear that it is otherwise. It will be understood that the aforementioned placement of an element, for example, can still be considered its placement even when the object that it is a part of is lying in some position other than the position in which it will be used. As an example, if reference is made to a device having an upper member, it will be understood that the upper member is being described as having an upper position when the device that it is a part of is in use or is in position for use, unless the context would make it clear that it is otherwise. Further to this example, it will be understood that the aforementioned upper member of the object can still be considered its upper member even when the object is lying on its side, for storage, or for transport, or for some other reason.
[0041]“Memory” refers to a non-transitory tangible computer-readable medium for storing information (e.g., data or data structures) in a format readable by a processor, and/or instructions (e.g., computer code or software programs or modules) that are readable and executable by a processor to implement an algorithm. The term “memory” includes a single device or a plurality of physically discrete, operatively connected devices despite use of the term in the singular. Non-limiting types of memory include solid-state semiconductor, optical, magnetic, and magneto-optical computer readable media. Examples of memory technologies include optical discs such as compact discs (CD-ROMs) and digital versatile discs (DVDs), magnetic media such as floppy disks, magnetic tapes or cassettes, and solid-state semiconductor random access memory (RAM) devices, read-only memory (ROM) devices, electrically erasable programmable read-only memory (EEPROM) devices, flash memory devices, memory chips and combinations of the foregoing. Memory may be non-volatile or volatile. Memory may be physically attached to a processor, or remote from a processor. Memory may be removable or non-removable from a system including a processor. Memory may be operatively connected to a processor in such a way as to be accessible by a processor. Instructions stored by a memory may be based on a plurality of programming and/or markup languages known in the art, with non-limiting examples including the C, C++, C#, Python™, MATLAB™, Java™, JavaScript™, Perl™, PHP™, SQL™, Visual Basic™, Hypertext Markup Language (HTML), Extensible Markup Language (XML), and combinations of the foregoing. Instructions stored by a memory may also be implemented by configuration settings for a fixed-function device, gate array or programmable logic device.
[0042]“Processor” refers to one or more electronic hardware devices that is/are capable of reading and executing instructions stored on a memory to perform operations on data, which may be stored on a memory or provided in a data signal. The term “processor” includes a single device or a plurality of physically discrete, operatively connected devices despite use of the term in the singular. The plurality of processors may be arrayed or distributed. Non-limiting examples of processors include integrated circuit semiconductor devices and/or processing circuit devices referred to as computers, servers or terminals having single or multi-processor architectures, microprocessors, microcontrollers, microcontroller units (MCU), central processing units (CPU), field-programmable gate arrays (FPGA), application specific circuits (ASIC), digital signal processors, and combinations of the foregoing.
[0043]Any method, application or module herein described may be implemented using computer readable/executable instructions that may be stored or otherwise held by a memory, and executed by a processor. Aspects of the present disclosure may be described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the disclosure. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor, such that the processor, and a memory storing the instructions, which execute via the processor, collectively constitute a machine for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
[0044]The flowcharts and functional block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present disclosure. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems that perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.
[0045]The embodiments of the disclosures 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 disclosure, therefore, is only to be limited by the claims appended hereto and any amendments made thereto.
[0046]Reference is made to
[0047]The cover layer 18 may be made from any suitable material such as a plush material, or some other type of fabric material.
[0048]Referring to
[0049]As shown in
[0050]In some embodiments such as shown in
[0051]Rotation of the plurality of drums 20 draws the plurality of tethers 22 so as to draw each of the second ends 26 of the plurality of tethers 22 through respective travel paths 29 (see
[0052]A drive source 30 may be positioned in the base 12 or more generally in the support structure. The drive source 30 has an operative connection to each drum 20 of the plurality of drums 20 to drive rotation of each drum 20 at a respective point in time for each drum 20. Each drum 20 has a drum perimeter. The length of the perimeter is a parameter that affects the length of the travel path of the second end 26 of the associated tether 22. Additionally, the point in time in which movement of the drum 20 is initiated is also a parameter that affects the length of the travel path of the second end 26 of the associated tether 22. In some embodiments, the drums 20 may be circular, such as is shown in
[0053]In the embodiment shown, it can be seen that a first portion 32 of the cover layer 18 covers a head portion 34 of the transformable member 16, and a second portion 36 of the cover layer 18 covers a body portion 38 of the transformable member 16. In the embodiment shown, the transformable member 16, with the cover layer 18 thereon, is in the form of a caterpillar that is somewhat anthropomorphic—somewhat resembling a human standing up with a head and face that faces forwardly. When covered by the cover layer 18 so as to be in the form of a caterpillar, the transformable member 16 may be said to be in a caterpillar state. As a result, in order to remove the cover layer 18, advantageously, only the first portion 32 of the cover layer 18 is pulled initially, in order to pull the first portion 32 off of the head portion 34 of the transformable member 16. After the first portion 32 is pulled off the head portion 34, some part of the second portion 36 (e.g. an upper portion 36a of the second portion 36) of the cover layer 18 may be pulled, and the first portion 32 can continue to be pulled. After some further time, another part of the second portion 36 (e.g. a lower portion 36b of the second portion 36) that is lower down on the transformable member 16 than the upper portion 36a, may be pulled, while the first portion 32 and another part of the second portion 36 are also pulled.
[0054]As can be seen, the first travel path 29a is longer than the final travel path 29f. Accordingly, the drum perimeter and the respective point in time of initiation of driving of the first drum 20a may be selected to reflect this longer distance for the first travel path 29a as compared to the final travel path 29f. Similarly, in embodiments in which there is a second drum 20b and a second tether 22b, the first travel path 29a may be longer than the second travel path 29f, which may be longer than the final travel path 29f. Accordingly, the drum perimeter and the respective point in time of initiation of driving of the first drum 20a may be selected to reflect this longer distance for the first travel path 29a as compared to the second travel path 29f, and the drum perimeter and the respective point in time of initiation of driving of the second drum 20b may be selected to reflect this longer distance for the second travel path 29b as compared to the final travel path 29f.
[0055]It will be noted that, as shown in
[0056]For greater certainty, the term ‘generally parallel to’ in relation to the respective travel paths, as mentioned above, will be interpreted to mean ‘angularly within 45 degrees of’.
[0057]Having the respective points in time being different from one another may be achieved in any suitable way. For example, in the embodiment shown in
[0058]Similarly, in the embodiment shown, the second drum 20b may include a second drum drive lug 44 and the final drum (which is in this embodiment a third drum), may include a third drum driven lug 46. The second drum drive lug 44 is angularly spaced from the third drum driven lug 46 by a selected second angular distance A2 such that driving of the second drum 20b through the selected second angular distance A2 drives the second drum drive lug 44 into engagement with the third drum driven lug 46 (
[0059]The operative connection between the drive source 30 and the at least one drum 20 is described below. The drive source 30 may include an electric motor 200 (
[0060]When the drive source 30 is driven the first drum 20a may be driven immediately. Thus, the first point in time may be the time that the drive source 30 is actuated. Completion of rotation of the first drum 20a through the first angular distance A1 so as to bring the first drum drive lug 40 into engagement with the second drum driven lug 42 may correspond to the second point in time. Completion of rotation of the second drum 20b through the second angular distance A2 so as to bring the second drum drive lug 44 into engagement with the third drum driven lug 46 may correspond to the final point in time.
[0061]Thus, as described above, the drive source 30 has an operative connection to each of the at least one drum 20 to drive rotation of each of the at least one drum 20 to draw each second end 26 of the at least one tether 22 through its respective travel path 29 so as to pull the cover layer 18 towards the retracted position.
[0062]Each of the at least one tether 22 extends from the cover layer 18 to the associated from the at least one drum by passing through a tether aperture 208 in the cartridge housing 21. In the embodiment shown in
[0063]The transformable member 16 may sit on the support structure without being connected to the support structure. Alternatively, the transformable member 16 may be connected to the support structure in any suitable way. The transformable member 16 may be positioned on the cartridge 14, and may be releasably mounted to the cartridge 14 (e.g. via the transformable member latches 54). In the embodiment shown, the transformable member 16 includes a plurality of latch grip surfaces 50, one of which is shown in
[0064]The plurality of transformable member latches 54 may be biased towards the latching position. Such biasing may be by any suitable means such as by a transformable member latch biasing member 56, which may be a compression spring between the transformable member latch 54 and a suitable point on the cartridge housing 21.
[0065]The transformable toy set 10 may further comprises a release member 58 that is movable between a latch opening position (shown in dashed lines in
[0066]The release member 58 may be movable between the latch opening and latch closing positions in any suitable way. For example, the final drum 20f may be operatively connected to the release member 58 such that rotation of the final drum 20f to draw the second end 26 of the final tether 22f along the final travel path 29f drives the release member 58 to drive the plurality of transformable member latches 54 to the unlatching position so as to permit removal of the transformable member 16 from the support structure when the final drum 20f has rotated to draw the second end of the final tether 22f along an entirety of the final travel path 29f.
[0067]The operative connection between the final drum 20f and the release member 58 may be any suitable operative connection. For example, the final drum 20f may have a first thread 60, and the release member 58 may have a second thread 62 that mates with the first thread 60. The release member 58 is constrained by the support structure from rotation, such that rotation of the final drum 20f drives linear movement of the release member 58 to the latch closing position. The constraint from rotation may be from any suitable structure, such as by a rotation prevention projection 64 on the release member 58 that engages a complementary slot (not shown) in the cartridge housing 21.
[0068]Once the release member 58 has been driven linearly sufficiently to move the transformable member latches 54 to the unlatching position, the release member 58 drives a change of state of a limit switch 66 that is optionally provided. The limit switch 66 may be positioned anywhere suitable, such as inside the transformable member 16.
[0069]The transformable toy set 10 includes a control system 68 that includes a processor 68a and a memory 68b, which may optionally be provided on a printed circuit board (PCB) 68c. The processor 68a may be operatively connected to the drive source 30. The PCT 68c may have the limit switch 66 mounted thereto. The processor 68a may receive signals from the limit switch 66, and may send a command to the drive source 30 to stop driving the rotation of the drums 20. In other words, the driving of the release member 58 sufficiently to cause a change of state of the limit switch 66 is indicative that the plurality of drums 20 have been rotated sufficiently to drive the second ends 26 of the plurality of tethers 22 along the entirety of the travel paths 29, thereby removing the cover layer 18 from at least a portion of the transformable member 16, and unlatching the transformable member latches 54 so as to permit the transformable member 16 to be removed from the support structure (e.g. from the cartridge 14).
[0070]As can be seen in
[0071]Based on the above it can be seen that the transformable toy set 10 optionally includes at least one projection (e.g. at least one of the aforementioned wing members 70) that is movable between a first projection position (e.g. the position as shown in
[0072]As can be seen in
[0073]The cover layer 18 has a distal end opening 84 at the distal end 82. When the cover layer 18 is covering the at least a portion of the transformable member 16 (i.e. when the transformable member 16 is in the caterpillar state), the distal end 82 of the cover layer 18 is extended distally from the proximal end 80 of the cover layer 18 such that the cover layer 18 surrounds the transformable member 16, as shown in
[0074]The transformable member 16 includes a cover layer end cover 86 that is movable between a retracted position (
[0075]A cover layer end cover biasing member 88 urges the cover layer end cover 86 towards the extended position. A first locking member 90 connected to the housing structure (shown at 91) of the transformable member 16 blocks a second locking member 92 on the cover layer end cover 86 to hold the cover layer end cover 86 in the retracted position. The first locking member 90 may be biased in a locking position in any suitable way, such as by being positioned on a locking member arm 94 that is resilient and is cantilevered to the housing structure 91 of the transformable member 16. The user can press down on a cover layer end cover disengagement member 96 that engages the locking member arm 94 and pushes it out of the way of the second locking member 92, which in turn permits the cover layer end cover 86 to move to the extended position under the urging of the cover layer end cover biasing member 88. The cover layer end cover disengagement member 96 may itself be in the form of a resilient, cantilevered arm that forms part of the housing structure 91 of the transformable member 16, and may form part of the exterior surface of the transformable member 16 so as to be easily accessible by a user. After pressing the cover layer end cover disengagement member 96 to release the cover layer end cover 86 to the extended position, the user may simply stop pressing on the cover layer end cover disengagement member 96 and it will return to its home position due to its resiliency. Similarly, the first locking member 90 will also return to its home position due to the resiliency of the locking member arm 94.
[0076]To bring the cover layer end cover 86 back to the retracted position the user simply pushes the cover layer end cover 86 towards the housing structure 91 of the transformable member 16. The second locking member 92 engages a sloped surface 98 on the first locking member 90 and drives the first locking member 90 out of the way. Once the second locking member 92 has cleared the first locking member 90 the first locking member 90 can return to its home position to lock the cover layer end cover 86 in the retracted position.
[0077]When removing the cover layer 18 from the transformable member 16, as a first step the user can move the cover layer end cover 86 to the extended position (by pressing on the cover layer end cover disengagement member 96 through the cover layer 86. The user can then operate the drive source 30 to drive the at least one drum 20 to pull the cover layer 18 towards the retracted position. When the cover layer 18 is in the retracted position, the user can then remove the transformable member 16 from the cartridge 14, or more broadly, from the support structure. In the embodiment shown, once the cover layer 18 has been moved to the retracted position, the transformable member 16 is in the butterfly state.
[0078]The cartridge 14 may be releasably mounted to the base 12. In the embodiment shown, the base includes a plurality of cartridge latches 100 one of which is shown in
[0079]As shown in
[0080]The at least one enclosure member 108 may be pivotally mounted to a remainder of the base 12 so as to pivot between the open and closed positions.
[0081]The drive source 30 may optionally be operatively connected to the at least one enclosure member 108. In the embodiment shown, the gear train 202 includes an enclosure member output gear 110. The base 12 further includes an enclosure member input gear 112, which is rotatably connected to the base 12. The enclosure member input gear 112 is also engaged with the enclosure member output gear 110, and is connected to a cam path member 114. The enclosure member input gear 112 may be a ring gear as shown. Rotation of the enclosure member output gear 110 drives the enclosure member input gear 112 and the cam path member 114 to rotate.
[0082]The at least one enclosure member 108 may have a cam path member engagement member 116 (
[0083]The cam path 118 may have an undulating shape including peaks 120 and valleys 122. During rotation of the cam path member 114, when the cam path member engagement member 116 of one of the enclosure members 108 engages one of the peaks 120, then the enclosure member 108 is driven to pivot to the open position, shown in
[0084]With reference to
[0085]Initially, the transformable toy set 10 may be in the position shown in
[0086]Upon driving the at least one drum 20 sufficiently the at least one drum 20 drives the release member 58 to the latch opening position, while having retracted the cover layer 18. The processor 68a may initiate driving of the electric motor in the second direction DG2 to bring the at least one enclosure member 108 to the open position, so as to expose the transformable member 16 in the butterfly state, positioned on the cartridge 14, and unlatched therefrom. The user may then remove the transformable member 16 from the cartridge 14 while the cartridge 14 remains mounted to the base 12 (i.e. in the receptacle 132). It will be noted that the base 12 optionally includes an apron 134 at a top end of the receptacle 132, which obscures the view of the cover layer 18 when the cover layer 18 is in the retracted position.
[0087]Based on the above, the memory 68b may be said to store instructions that are executable by the processor 68a to: a) operate the drive source 30 in order to move the at least one enclosure member 108 to the closed position to hide the transformable member 16 with the cover layer 18 mounted thereon in the extended position; b) after step a), operate the drive source 30 to drive the at least one drum 20 to pull the cover layer 18 to the retracted position; and c) after step b), operate the drive source 30 in order to move the at least one enclosure member 108 to the open position to show the transformable member 16 while the cover layer 18 is in the retracted position.
[0088]Once the transformable member 16 is removed from the cartridge 14, the user may interact with the transformable member 16 via one or more sensors positioned thereon, in any suitable way.
[0089]The transformable toy set 10 includes a battery pack 136 (
[0090]As shown in
[0091]As shown in
[0092]It is noted that, with the battery pack 136 in the transformable member 16, it is not possible to change out the at least one battery 138 if the at least one battery 138 is dead and the transformable member 16 is on the base 12 with the at least enclosure member 108 in the closed position. To address this, the transformable toy set 10 may include a manual actuator 160 shown in
[0093]While the transformable member 16 shown in the figures has a smooth outer surface, it is optionally possible to provide the exterior of the transformable member 16 with a plush covering or any other suitable covering. Thus, when in the caterpillar state, there may be a first plush layer (i.e. the cover layer 18) on top of a second plush layer (i.e., the aforementioned plush layer making up at least part of the outer surface of the transformable member 16).
[0094]While the drive source 30 has been shown and described as a single electric motor that is rotated in a first rotational direction (i.e. rotational direction DG1) to drive rotation of the at least one drum 20 and is rotated in a second rotational direction (i.e. rotational direction DG2) to drive the at least one enclosure member 108 between the open and closed positions, it is alternatively possible for the drive source 30 to include a first electric motor that drives rotation of the at least one drum 20 and a second electric motor that drives the at least one enclosure member 108 between the open and closed positions.
[0095]Persons skilled in the art will appreciate that there are yet more alternative implementations and modifications possible, and that the above examples are only illustrations of one or more implementations. The scope, therefore, is only to be limited by the claims appended hereto.
[0096]Other concepts are also disclosed herein, for which protection is being sought.
Claims
What is claimed is:
1. A transformable toy set, including:
a transformable member;
a cover layer that is movable between an extended position in which the cover layer covers at least a portion of the transformable member, and a retracted position in which the cover layer exposes at least a portion of the at least a portion of the transformable member;
a plurality of drums and a plurality of tethers, each of the plurality of tethers having a first end that is connected to a respective one of the plurality of drums, and having a second end that is connected to a respective point on the cover layer,
wherein rotation of the plurality of drums draws the plurality of tethers so as to draw each of the second ends of the plurality of tethers through respective travel paths so as to pull the cover layer from the extended position towards the retracted position; and
a drive source having an operative connection to each drum of the plurality of drums to drive rotation of each drum at a respective point in time for each drum, and wherein each drum has a drum perimeter,
wherein the respective point in time and the drum perimeter for a first drum from the plurality of drums are selected to draw the second end of a first tether of the plurality of tethers through a first travel path of the respective travel paths, and
the respective point in time and the drum perimeter for a final drum from the plurality of drums are selected to draw the second end of a final tether of the plurality of tethers through a final travel path of the respective travel paths,
wherein the first travel path is longer than the final travel path.
2. A transformable toy set as claimed in
3. A transformable toy set as claimed in
4. A transformable toy set as claimed in
wherein the second travel path is generally parallel to the second direction along the first travel path,
wherein the respective point in time for the second drum is selected so as to start drawing the second end of the second tether while the second end of the first tether is travelling in the second direction.
5. A transformable toy set as claimed in
wherein the plurality of drums are mounted in a support structure,
wherein the transformable member includes a plurality of latch grip surfaces, and wherein the support structure includes a plurality of transformable member latches, which are movable between a latching position in which the plurality of transformable member latches engage the latch grip surfaces to hold the transformable member to the support structure, and an unlatching position in which the plurality of transformable member latches are disengaged from the latch grip surfaces to permit removal of the transformable member from the support structure, wherein the plurality of transformable member latches are biased towards the latching position,
and wherein the transformable toy set further comprises a release member that is movable between a latch opening position in which the release member drives the plurality of transformable member latches to the unlatching position, and a latch closing position in which the release member permits movement of the plurality of transformable member latches to the latching position,
wherein the final drum is operatively connected to the release member such that rotation of the final drum to draw the second end of the final tether along the final travel path drives the release member to drive the plurality of transformable member latches to the unlatching position so as to permit removal of the transformable member from the support structure when the final drum has rotated to draw the second end of the final tether along an entirety of the final travel path.
6. A transformable toy set as claimed in
7. A transformable toy set as claimed in
wherein the respective point in time and the drum perimeter for a second drum from the plurality of drums are selected to draw the second end of a second tether of the plurality of tethers through a second travel path of the respective travel paths,
wherein the first drum includes a first drum drive lug and the second drum includes a second drum driven lug, and wherein the first drum drive lug is angularly spaced from the second drum driven lug by a selected first angular distance such that driving of the first drum through the selected first angular distance drives the first drum drive lug into engagement with the second drum driven lug, such that further driving of the first drum beyond the first angular distance also drives the second drum.
8. A transformable toy set as claimed in
9. A transformable toy set as claimed in
10. A transformable toy set as claimed in
at least one projection that is movable between a first projection position and a second projection position in which the at least one projection extends further from a remainder of the transformable member than in the first position, and
at least one projection biasing member that is positioned to urge the at least one projection towards the second projection position, wherein the cover layer holds the at least one projection in the first projection position and wherein removal of the cover layer permits movement of the at least one projection to the second projection position by the at least one projection biasing member.
11. A transformable toy set as claimed in
wherein the cover layer has a proximal end that is adjacent the support structure and a distal end, and has an opening at the distal end, wherein when covering the at least a portion of the transformable member, the distal end of the cover layer is extended distally from the proximal end of the cover layer such that the cover layer surrounds the transformable member, and movement of the second ends of the plurality of tethers along the respective travel paths moves the distal end of the cover layer towards the proximal end,
wherein the transformable member includes a cover layer end cover that is movable between a retracted position in which the cover layer end cover inhibits proximal movement of the distal end of the cover layer, and an extended position in which the cover layer end cover freely permits proximal movement of the distal end of the cover layer.
12. A transformable toy set as claimed in
and wherein the cover layer has a proximal end and a distal end, wherein the proximal end is mounted to the cartridge at a position so as to cover the plurality of tether apertures.
13. A transformable toy set as claimed in
14. A transformable toy set, including:
a base;
a cartridge that is releasably mounted to the base;
a transformable member positioned on the cartridge;
a cover layer that is movable between an extended position in which the cover layer covers at least a portion of the transformable member, and a retracted position in which the cover layer exposes at least a portion of the at least a portion of the transformable member;
at least one drum mounted in the cartridge and at least one tether, each of the at least one tether having a first end that is connected to a respective one of the at least one drum, and having a second end that is connected to a respective point on the cover layer,
a drive source having an operative connection to each of the at least one drum to drive rotation of each of the at least one drum to draw each second end of the at least one tether through a respective travel path so as to pull the cover layer towards the retracted position;
wherein the transformable member and the cartridge are removable together as a unit from the base when the cover layer is in the extended position on the transformable member, and
wherein the transformable member is removable from the cartridge while the cartridge remains mounted to the base when the cover layer is in the retracted position.
15. A transformable toy set as claimed in
16. A transformable toy set as claimed in
a) operate the drive source in order to move the at least one enclosure member to the closed position to hide the transformable member with the cover layer mounted thereon in the extended position;
b) after step a), operate the drive source to drive the at least one drum to pull the cover layer to the retracted position; and
c) after step b), operate the drive source in order to move the at least one enclosure member to the open position to show the transformable member while the cover layer is in the retracted position.
17. A transformable toy set as claimed in