TRANSFORMATION TOY CONSTRUCTION SYSTEM
A transformation construction system includes a toy figure set having a plurality of interconnectible building elements that are configured to connect to building elements of a construction set. The toy figure set includes a torso building element and a pelvis building element that interconnect with each other with an interference fit between a stud of the pelvis building element and a recess of the torso building element. A construction explanation identifies a first design mode that includes the toy figure set, a second design mode that includes the toy figure set and is distinct from the first design mode, and a set of instructions that show a transformation between the first design mode and the second design mode without disassembling the toy figure set and the plurality of building elements.
This application claims the benefit of U.S. Application No. 61/986,144, filed Apr. 30, 2014 and titled TRANSFORMATION TOY CONSTRUCTION SYSTEM, which is incorporated herein by reference in its entirety. This application claims the benefit of U.S. Application No. 62/116,119, filed Feb. 13, 2015 and titled TRANSFORMATION TOY CONSTRUCTION SYSTEM, which is incorporated herein by reference in its entirety. This application claims the benefit of U.S. Application No. 62/116,204, filed Feb. 13, 2015 and titled TOY CONSTRUCTION SET, which is incorporated herein by reference in its entirety. This application is a continuation-in-part of U.S. application Ser. No. 14/622,586, filed Feb. 13, 2015 and titled TOY CONSTRUCTION SET, which claims the benefit of U.S. Application No. 61/986,161, filed on Apr. 30, 2014 and titled TOY CONSTRUCTION SET, both of which are incorporated herein by reference in their entirety. This application claims the benefit of U.S. Application No. 61/986,136, filed Apr. 30, 2014 and titled TOY CONSTRUCTION SET, which is incorporated herein by reference in its entirety.
TECHNICAL FIELDThis disclosure relates to a toy construction system that includes at least one building element.
BACKGROUNDPersons of all ages enjoy playing and interacting with toys and building elements. Toy construction sets are made up of a plurality of building elements, which include coupling mechanisms such as studs or recesses of specific heights and placement to enable interconnection with other building elements.
SUMMARYIn one general aspect, a transformation construction system includes a toy figure set having a plurality of interconnectible building elements that are configured to connect to building elements of a construction set, the toy figure set including a torso building element and a pelvis building element that interconnect with each other with an interference fit between a stud of the pelvis building element and a recess of the torso building element that enable the pelvis building element and the torso building element to rotate relative to each other; a construction explanation identifying: a first design mode that includes the toy figure set, a second design mode that includes the toy figure set and is distinct from the first design mode, and a set of instructions that show a transformation between the first design mode and the second design mode without disassembling the toy figure set and the plurality of building elements.
Implementations can include one or more of the following features. For example, the transformation construction system can include a construction set of interconnectible building elements.
The construction explanation can identify all of the plurality of interconnectible building elements of the toy figure set connected in the first design mode. The construction explanation can identify all of the plurality of interconnectible building elements of the toy figure set connected in the second design mode.
The first design mode can be a toy figure and the second design mode can be a vehicle design. The design modes can be a shape or design other than a box shaped design.
During the transformation between the first design mode and the second design mode, the interconnection between the torso building element and the pelvis building element can be maintained.
The set of instructions that shows the transformation between the first design mode and the second design mode can include instructions that show the transformation from the first design mode to the second design mode. The set of instructions that shows the transformation between the first design mode and the second design mode can include instructions that show the transformation from the second design mode to the first design mode. The set of instructions that shows the transformation between the first design mode and the second design mode can include instructions that show both the transformation from the second design mode to the first design mode and the transformation from the first design mode to the second design mode.
The first design mode can include the torso building element and the pelvis building element interconnected to each other. The second design mode can include the torso building element and the pelvis building element interconnected to each other.
The torso building element can include at least three separate and distinctly located coupling elements that interconnect with coupling elements of the building elements of the construction set.
The stud on the pelvis building element can be configured to form an interference fit with one or more coupling elements of the building elements of the construction set.
The recess or receptacle of the torso building element can be configured to form an interference fit with one or more coupling elements of the building elements of the construction set.
The construction explanation can identify a third design mode that includes the toy figure set and is distinct from the first and second design modes. In this implementation, the set of instructions shows at transformation between one of the first and second design modes and the third design mode without disassembling the toy figure set and the plurality of building elements.
In other general aspects, a transformation construction system includes a toy figure set including a plurality of interconnectible building elements that are configured to connect to other building elements of a construction set, each building element of the construction set including one or more of male coupling elements and female coupling elements, in which coupling elements of a building element align with locations of a two-dimensional array defined in an x, y plane in which the distances between centers of the coupling elements taken along the x or y direction are an integer multiple of a base unit and a construction explanation. The toy figure set includes building elements having coupling elements that align with the locations of the two-dimensional array. The construction explanation identifies: a first design mode that includes the toy figure set, a second design mode that includes the toy figure set and is distinct from the first design mode, and a set of instructions that show a transformation between the first design mode and the second design mode without disassembling the toy figure set and the plurality of building elements.
Implementations can include one or more of the following features. For example, the transformation construction system can include the construction set of interconnectible building elements.
In other general aspects, a transformation construction system includes a toy figure set comprising a plurality of interconnectible building elements that are configured to connect to building elements of the construction set, the building elements of the construction set being interconnectible, each building element including one or more of male coupling elements and female coupling elements, in which coupling elements of a building element align with locations of a two-dimensional array defined in an x, y plane in which the distances between centers of the coupling elements taken along the x or y direction are an integer multiple of a base unit, and an identification. The toy figure set includes building elements having coupling elements that align with the locations of the two-dimensional array. The toy figure set includes a pelvis building element comprising a stud that extends from a surface, the stud comprising a cavity and an outer wall; and a torso building element comprising a recess, the recess configured to releasably connect with the stud of the pelvis building element, wherein, when the first building element and the second building element are connected, the stud is frictionally engaged at the cavity and at the outer wall. The identification of a first design mode that includes the toy figure set, and a second design mode that includes the toy figure set and is distinct from the first design mode.
Implementations can include one or more of the following features. For example, the transformation construction system can include an identification of a transformation between the first design mode and the second design mode without disassembling the toy figure set and the plurality of building elements. The identification of the first design mode and the second design mode can include the pelvis building element and the torso building element being interconnected and the identification of the transformation can maintain at all times the interconnectedness between the pelvis building element and the torso building element.
In another general aspect, a method of transformation includes identifying a toy figure set comprising a plurality of interconnectible building elements that are configured to connect to building elements of a construction set, the toy figure set including a torso building element and a pelvis building element that interconnect with each other with an interference fit between a stud of the pelvis building element and a recess of the torso building element that enable the pelvis building element and the torso building element to rotate relative to each other; identifying a first design mode that includes the toy figure set; identifying a second design mode that includes the toy figure set and is distinct from the first design mode; identifying a construction of at least one of the first and second design modes, the construction identification describing how to connect the interconnectible building elements of the toy figure set into the at least one of the first and second design modes; and providing an explanation of a transformation between the first design mode and the second design mode, the transformation occurring without disassembling the toy figure set and the plurality of building elements.
In other general aspects, a transformation construction system includes a toy figure set and a construction explanation. The toy figure set includes a plurality of interconnectible building elements that are configured to connect to building elements of a construction set. The interconnectible building elements include a torso building element and a pelvis building element that interconnect with each other by way of an interference fit; and at least a pair of transform building elements. Each transform building element in the pair includes: a non-transform coupling element that is configured to repeatably connect to one or more coupling elements of other building elements of the toy figure set, and a transform coupling element that is configured to repeatably connect to the other transform coupling element of the pair. The construction explanation identifies a first design mode that includes the toy figure set assembled from the plurality of interconnectible building elements, a second design mode that includes the toy figure set assembled from the plurality of interconnectible building elements, the second design mode being distinct from the first design mode, and instructions that present a transformation between the first design mode and the second design mode without disconnecting the plurality of building elements of the toy figure set. The transformation shows: one or more of: unlocking the transform coupling elements of the transform building elements of a pair from each other, and locking the transform coupling elements of the transform building elements of a pair to each other; and articulating one or more building elements of the toy figure set relative to other building elements of the toy figure set without disconnecting the coupling elements of the building elements of the toy figure set.
Implementations can include one or more of the following features. For example, the instructions that present the transformation that shows one or more of unlocking the transform coupling elements of the transform building elements of a pair from each other can show the connection between the non-transform coupling elements of the transform building elements being maintained with the coupling elements of the other building elements of the toy figure set.
Implementations of any of the techniques described above can include a transformable toy construction set having a toy figure that also includes parts that are building elements of a construction set, a process, or a device. The details of one or more implementations are set forth in the accompanying drawings and the description below. Other features will be apparent from the description and drawings, and from the claims.
In other general aspects, a toy figure set is configured to connect to building elements of a construction set. A plurality of building elements of the construction set include one or more of coupling studs and coupling recesses, the center of any of the coupling studs being separated from the center of a nearest coupling stud by a center-to-center spacing and the center of any of the coupling recesses being separated from the center of a nearest coupling recess by the center-to-center spacing. The toy figure set includes a plurality of interconnectible building elements configured to repeatably connect to and disconnect from each other to form a toy figure and to repeatably connect to the building elements of the construction set, at least some of the interconnectible building elements of the plurality including one or more of coupling studs and coupling recesses. The toy figure set also includes a foundational building assembly that includes a set of foundation building elements including at least two core toy figure building elements and a connection building element that is configured to connect to two or more of the at least two core toy figure building elements. Each of the core toy figure building elements has at least a first set of coupling elements separated from each other by a distance that is an integer multiple of the center-to-center spacing. The toy figure set is buildable from the foundational building assembly and a set of interconnectible building elements into a first design mode and a second design mode. The set of interconnectible building elements includes at least some of the plurality of interconnectible building elements. The toy figure set is transformable between the first design mode and the second design mode without disassembling the toy figure set.
Implementations can include one or more of the following features. For example, each of the core toy figure building elements can include at least one coupling element configured to allow a connected building element to articulate in more than one plane.
The core toy figure building elements can include a pelvis building element and a torso building element, and the connection building element can include a three-sided building element that includes at least one side that fits between the torso building element and the pelvis building element when the torso building element, the pelvis building element, and the three-sided building element are connected. The first set of coupling elements of the torso building element can include two side recesses, the center of each side recess being separated by the center-to-center spacing, and the first set of coupling elements of the pelvis building element can include two balls, the centers of the balls being separated from each other by the center-to-center spacing. The toy figure set can also include at least two leg building elements, each of the leg building elements having a socket that connects to one of the balls of the pelvis building element via a snap fit.
The pelvis building element can include a coupling stud that extends from a surface, the stud having a cavity and an outer wall. And the torso building element can include a center recess between the two side recesses, the center recess configured to releasably connect with the stud of the pelvis building element. When the pelvis building element and the torso building element are connected, the stud is frictionally engaged at the cavity and at the outer wall.
The pelvis building element and the torso building element can remain interconnected during the transformation between the first design mode and the second design mode.
The three-sided building element can remain connected to both of the at least torso building element and the pelvis building element during the transformation between the first design mode and the second design mode.
When the foundational building assembly is assembled, at least one coupling element on each of the foundation building elements can be separated from at least one coupling element on each of the other foundation building elements by an integer multiple of the center-to-center spacing.
The at least two core toy figure building elements and the connection building element can connect together via one or more non-snap frictional engagements.
Referring to
The toy figure set 110 includes a torso building element 115 and a pelvis building element 120 that interconnect with each other by way of an interference fit between respective interconnecting coupling elements 116, 121 of the torso building element 115 and the pelvis building element 120. For example, a stud 121 on the pelvis building element 120 can fit into a recess 116 of the torso building element 115. An interference fit is a friction fit or frictional engagement in which the mechanical coupling or fastening between the coupling elements is achieved by friction after the coupling elements are pushed together, mated, seated, or otherwise mutually engaged. The interference fit can involve a purposeful interference or deformation of one or more of the coupling elements during the act of coupling, fastening, pushing together, or otherwise being mutually engaged. Thus, the interference fit can be achieved by shaping the two coupling elements so that one or the other, or both, slightly deviate in size or form from their nominal dimension or size and one or more of the coupling elements slightly interferes with the space that the other would normally take up (without being coupled).
In one example, the degree or strength of an interference fit is sometimes referred to as “clutch.” The amount of clutch provides an indication of the forces used to combine and/or separate the coupling elements to or from each other. The degree or amount of contact between the coupling elements when coupled directly can correlate to the amount of clutch provided. In addition, the number of points of contact between the coupling elements can determine the amount of clutch. For example, there may be three, four, five, or more points of contact between a male stud and a female recess, where more points of contact provide more clutch. With regard to female coupling elements, the point of contact can be referred to as a “point of clutch” or a “frictional engagement point.”
Additionally, the toy figure set 110 includes other building elements that are able to connect with the building elements of the construction set 150. For example, the toy figure set 110 can include basic building elements that have a basic geometric design such as a 1×4 plate 126 that has a 1×4 array of coupling studs on one surface and a 1×4 array of coupling recesses on a second surface (not shown).
The toy figure set 110 can include more complex building elements that have other design features that impart the design to the toy figure set 110 once it is assembled. These other complex building elements can also have other types of coupling elements. For example, a 1×2 plate with side c-clip 128 includes not only a 1×2 array of coupling studs on one surface and a 1×2 array of coupling recesses on a second surface (not shown) but also a side c-clip 130 that connects in a different manner (and perhaps a different standard size) to other building elements of the toy figure set 110 or the construction set 150. As another example, a 1×2 plate with side socket 132 includes not only a 1×2 array of coupling studs on one surface and a 1×2 array of coupling recesses on a second surface (not shown) but also a side socket 134 that connects in a different manner to other building elements of the toy figure set 110 or the construction set 150. For example, the side socket 134 of the 1×2 plate with side socket 132 can connect to a ball 122 on the pelvis building element 120 or to a ball 117 on the torso building element 115.
As another example, an accessory building element 136 may lack coupling studs or coupling recesses that are found on the basic building elements but it includes one or more posts 138 that can fit into recesses on other building elements such as a recess 140 of a head building element 142 or the c-clip 130 of the 1×2 plate with side c-clip 128.
The toy figure set 110 can also include a pair of transform building elements 170, 175 that are used to facilitate the transformation between the design modes. Referring also to
Each of the transform building elements 170, 175 in the pair includes one or more transform coupling elements 173, 178, respectively. These transform coupling elements 173, 178 are configured to connect with each other in a standard interference fit, which can be a snap fit such as the c-clip to bar connection that forms between transform coupling elements 173, 178. These transform coupling elements 173, 178 are connected to each other or disconnected from each other at some point during a transformation between two design modes. Thus, if these transform coupling elements 173, 178 are connected to each other in a first design mode, then they will be disconnected at some point during the transformation from the first design mode to the second design mode. Because these transform coupling elements 173, 178 act to lock at least one of the design modes in place so that it becomes a stable construction set, such connection between the transform coupling elements 173, 178 can be referred to as locking and disconnection can be referred to as unlocking.
The construction explanation 180 identifies a first design mode 182 that includes the building elements of the toy figure set 110 and a second design mode 186 that includes the building elements of the toy figure set 110. The second design mode 186 is distinct from or different in impression and overall geometric arrangement from the first design mode 182. In this way, a user can assemble the building elements of the toy figure set 110 in a first manner to form the first design mode 182, or can assemble the building elements of the toy figure set 110 in a second manner to form the second design mode 186. Thus, in this manner, each design mode 182, 186 can be formed by starting with a set of disconnected building elements of the toy figure set 110 and then connecting them together using frictional fits such as interference fits or snap engagements.
The construction explanation 180 also identifies transform instructions 190 that show a transformation between the first design mode 182 and the second design mode 186 without disassembling the toy figure set 110. Specifically, the first design mode 182 is made by connecting various coupling elements of the various building elements of the set 110 in a certain manner, and during the transformation to the second design mode 186 these connections are maintained while the building elements are articulated (for example, rotated, translated, aligned, or generally moved) relative to each other. Moreover, connections between the non-transform coupling elements (such as elements 171 and 172 on building element 170 and elements 176 and 177 on building element 175) of the transform building element pairs are maintained during the transformation. On the other hand, if the transform coupling elements (such as the elements transform coupling elements 173, 178) are un-locked (disconnected from each other) while in the first design mode, then these are locked (connected) at some point during the transformation to the second design mode.
Thus, in this manner, the first design mode 182 can be formed by starting with the assembled building elements of the toy figure set 110 in the second design mode 186, and then moving the assembled building elements by translation or rotation without disassembling or disconnecting the building elements from each other during the translation or rotation to transform into the first design mode 182. Similarly, the second design mode 186 can be formed by starting with the assembled building elements of the toy figure set 110 in the first design mode 182, and then moving the assembled building elements by translation or rotation without disassembling or disconnecting the building elements from each other during the translation or rotation to transform into the second design mode 186.
Referring to
Any two or more building elements within the toy figure set 110 can be interconnected with each other; any two or more building elements within the construction set 150 can be interconnected with each other; and building elements from the toy figure set 110 can be interconnected with building elements of the construction set 150. For example, the 1×4 plate 126 of the toy figure set 110 can be interconnected with a 2×3 brick 155 of the construction set 150. As another example, the torso building element 115 of the toy figure set 110 can be interconnected with a 1×4 brick 160 of the construction set 150.
Referring to
The building elements 200, 220 connect together with a frictional engagement between male coupling elements such as studs 222 on the building element 220 and female coupling elements such as recesses 202 on the building element 200. The frictional engagement is such that the building elements 200, 220 can be connected, disconnected, and reconnected repeatedly and without harming or destroying the building elements 200, 220. In this example, the building elements 200, 220 are brought together along a z direction. Once connected, the building elements 200, 220 can be held together with an interference fit.
As shown in
For building elements that include other types of coupling elements (such as balls, posts, c-clips, or sockets), the centers of those coupling elements can align with the coupling elements (the studs and recesses) of the grid associated with the other building elements of the construction set. Thus, for example, the distances between centers of the coupling elements in the grid taken along a direction that is parallel with either the x or the y axis in the x-y plane are a standard unit, which is an integer multiple of the base unit, BU. The coupling elements (such as the studs, balls, c-clips, or sockets) are in system if their centers are separated from each other by an integer multiple of the base unit BU.
The distances are within a standard tolerance. Thus, the distances are considered to be in system if they are within the tolerance needed to obtain the needed interference fit.
For example, any of the building elements discussed above can include one or more coupling elements. Coupling elements of standard building elements can include male coupling elements, for example, in the form of a coupling stud, and female coupling elements, for example, in the form of a coupling recess that is sized to receive the coupling stud. The male and female coupling elements can have a first coupling size. For example, the first coupling size of a standard coupling stud (that is on a surface of a building element, such as a plate or brick) is defined by an outside diameter OD (
A building element is “in system” with other building elements when the building element is built into the grid or an assembly that is formed from at least some of the other building elements of the toy construction set. For example, making the height and/or width of the building element the same as at least some of the other building elements in the toy construction set allows the building element to be interchanged with other building elements of the set, thus allowing the building element to be connected or placed “in system.”
One of the challenges in making a transformation construction system that is based on a construction system that includes a torso building element 115 and a pelvis building element 120 is that the transformation between the first design mode 182 and the second design mode 186 needs to occur without having to disassemble or disconnect any of the parts or building elements of the toy figure set 110 in order to obtain the desired design mode 182, 186. Additionally, one or more of the design modes can include additional locking features (such as coupling elements) that can be used to maintain the design mode.
Referring to
The pelvis building element 120 includes the stud 121, which protrudes from a surface 123. The stud 121 includes an outer wall 124 that defines an inside cavity 125. The two balls 122 of the pelvis building element 120 can be spaced from each other such that their centers are separated by a distance that is an integer multiple of the base unit. In this way, the pelvis building element 120 is capable of an in system connection.
The torso building element 115 includes the recess 116 formed within an outer wall 117 and a protrusion 118 that extends into the recess 116. The torso building element 115 can also include ribs 119 that extend along the interior of the wall 117 and jut into the recess 116. The torso building element 115 also includes two recesses 116A, 116B on either side of the protrusion 118. The centers of the recesses 116A, 116B are spaced apart from each other by a distance that is an integer multiple of the base unit. In this way, the torso building element 115 can be connected to a building element of the toy figure set 110 or the construction set 150 in system (by aligning the recesses 116A, 116B with coupling studs on a building element of the toy figure set 110 or the construction set 150). Additionally, the balls 117 on the torso building element 115 can have centers that are positioned a distance Dt from a tangent of the shoulder (adjacent to the stud at the top of the torso building element 115), such distance being an integer multiple of the base unit. In this manner, the torso building element 115 can be connected in system with other building elements of the toy figure set 110 or the construction set 150.
To connect the torso building element 115 and the pelvis building element 120, the protrusion 118 is inserted into the cavity 125, and the outer wall 124 of the stud 121 is physically connected to at least a portion of the wall 117. The insertion and physical connection creates a frictional engagement between the inner wall of the cavity 125 and the protrusion 118 and between at least a portion of the outer wall 124 of the stud 121 and a portion of the wall 117 of the torso building element 115. Thus, the torso building element 115 and the pelvis building element 120 are held together and connected at a plurality of frictional engagement points. Portions of the outer wall 124 can have a frictional engagement with the wall 117 by having a frictional engagement with one or more of the ribs 119. Additionally, the ribs 119 can be used to connect and hold the torso building element 115 to a separate building element. The plurality of frictional engagement points between the torso building element 115 and the pelvis building element 120 can occur without a snap fit engagement. A snap fit connection engagement includes both a purposeful deformation along a first direction but also a subsequent relaxing back along a second direction that is different from (for example, anti-parallel with) the first direction. Thus, torso building element 115 and the pelvis building element 120 can be connected using only a deformation along only a first direction (without a subsequent relaxing back along a second direction).
Having a plurality of distinct frictional engagement points when the torso building element 115 and the pelvis building element 120 are connected can result in the connected toy figure set 110 being held more securely, and the torso building element 115 and the pelvis building element 120 being clutched more strongly, as compared to an implementation in which a single frictional engagement is formed between two surfaces.
The torso building element 115 and the pelvis building element 120 can be rotated relative to each other while connected. The rotation can occur about a connection axis 400, which is parallel to a longitudinal axis of the torso building element 115, and can be in a plane that is perpendicular to the connection axis 400. The rotation can be smooth, without the torso building element 115 and the pelvis building element 120 disconnecting from each other or moving apart from each other along the connection axis 400. The torso building element 115 and the pelvis building element 120 can remain connected to each other while being rotated because of the strong and secure connection provided by the plurality of frictional engagements. In this way, the subsequent transformation performed on the toy figure set 110 is also more secure.
The ribs 119 can help keep the torso building element 115 and the pelvis building element 120 connected when they are rotated relative to each other. The ribs 119 can also help the torso building element 115 and the pelvis building element 120 rotate smoothly without separating or moving away from each other along the connection axis 400. In the example shown, there are four ribs 119 spaced about the protrusion 118. The ribs 119 provide additional clutching surfaces (surfaces for frictional engagement) for a connection on a building element that connects to the torso building element 115. Furthermore, the ribs 119 can aid in aligning the outer wall 124 or the outer portion of any other type of connection on a separate building element that connects to the torso building element 115 at the protrusion 118. In the example shown, the four ribs 119 provide four additional points of contact and four lines of alignment. Other implementations can include more or fewer ribs.
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Specific reference is made to
Also, the construction explanation 580 identifies a set of instructions 590 that show a transformation between the first design mode 582 and the second design mode 586. Referring to
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One or both of the instructions 590A, B can be provided in the construction explanation 580.
During the transformation steps shown in
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The connection building element 2564 includes coupling elements 2604, 2606 that enable the connection building element 2564 to repeatedly connect to and disconnect from the core toy figure building elements 2515, 2520. The coupling elements 2604, 2606 are openings through which a coupling element of a core building element can pass. The coupling element 2604 is defined by a side that includes two arms 2608, 2610 that extend from the side and form the coupling element 2604. The coupling element 2604 can hold the coupling element of a core toy figure building element with a frictional engagement. The coupling element 2604 can receive a coupling element of another building element along the axis of the opening between the arms 2608, 2610. Thus, for example, the torso building element 2515 can connect to the connection building element 2564 by connecting to the coupling element 2604 to a stud 2612 of the torso building element 2515. In this way, the arms 2608, 2610 deform when the stud 2612 is inserted into them, and the arms 2608, 2610 snap back in place after the stud 2612 is in the opening formed by the arms 2608, 2610.
The coupling element 2606 is defined within another side of the connection building element 2564. In this example, the coupling element 2606 holds a coupling element (such as the stud 2614) of the pelvis building element 2520 in frictional engagement. When the stud 2614 is inserted into the coupling element 2606, a frictional engagement is created.
Referring also to
The foundational building assembly 2562 is formed by connecting the connection building element 2564 to the torso building element 2515 and the pelvis building element 2520. Initially, the connection building element 2564 slides onto the body of the torso building element 2515 such that the side of the connection building element 2564 that holds the studs 2600 is parallel to a back of the torso building element 2515. As the connection building element 2564 slides onto the body of the torso building element 2515, the lower side (that defines the coupling element 2606) slides across the lower side of the torso building element 2515. Additionally, the arms 2608, 2610 that define the coupling element 2604 snap fit onto the stud 2612 (as discussed above, the arms 2608, 2610 first deform when the stud 2612 is inserted into them, and the arms 2608, 2610 snap back in place after the stud 2612 is in the opening formed by the arms 2608, 2610).
Attaching the connection building element 2564 to the torso building element 2515 in this manner results in the coupling element 2606 aligning with the recess 116 (
After the connection building element 2564 and the torso building element 2515 are connected, the stud 2614 of the pelvis building element 2520 is connected to the recess 116 (
Referring again to
An exemplary transformation from the design mode 2582 to the design mode 2586 is shown in
Other implementations are within the scope of the following claims.
Claims
1. A transformation construction system comprising:
- a toy figure set comprising a plurality of interconnectible building elements that are configured to connect to building elements of a construction set, the toy figure set including a torso building element and a pelvis building element that interconnect with each other with an interference fit between a stud of the pelvis building element and a recess of the torso building element that enable the pelvis building element and the torso building element to rotate relative to each other;
- a construction explanation identifying: a first design mode that includes the toy figure set, a second design mode that includes the toy figure set and is distinct from the first design mode, and a set of instructions that show a transformation between the first design mode and the second design mode without disassembling the toy figure set and the plurality of building elements.
2. The transformation construction system of claim 1, wherein the construction explanation identifies all of the plurality of interconnectible building elements of the toy figure set connected in the first design mode.
3. The transformation construction system of claim 1, wherein the first design mode is a toy figure and the second design mode is a vehicle design.
4. The transformation construction system of claim 1, wherein neither of the design modes is a box shaped design.
5. The transformation construction system of claim 1, wherein, during the transformation between the first design mode and the second design mode, the interconnection between the torso building element and the pelvis building element is maintained.
6. The transformation construction system of claim 1, wherein the set of instructions that shows the transformation between the first design mode and the second design mode comprises instructions that show the transformation from the first design mode to the second design mode.
7. The transformation construction system of claim 1, wherein the set of instructions that shows the transformation between the first design mode and the second design mode comprises instructions that show both the transformation from the second design mode to the first design mode and the transformation from the first design mode to the second design mode.
8. The transformation construction system of claim 1, wherein the first design mode and the second design mode both include the torso building element and the pelvis building element interconnected to each other.
9. The transformation construction system of claim 1, wherein the torso building element includes at least three separate and distinctly located coupling elements that interconnect with coupling elements of the building elements of the construction set.
10. The transformation construction system of claim 1, wherein the stud on the pelvis building element is configured to form an interference fit with one or more coupling elements of the building elements of the construction set.
11. The transformation construction system of claim 1, wherein the recess of the torso building element is configured to form an interference fit with one or more coupling elements of the building elements of the construction set.
12. The transformation construction system of claim 1, wherein:
- the construction explanation identifies a third design mode that includes the toy figure set and is distinct from the first and second design modes; and
- the set of instructions shows at transformation between one of the first and second design modes and the third design mode without disassembling the toy figure set and the plurality of building elements.
13. A toy figure set configured to connect to building elements of a construction set, a plurality of building elements of the construction set including one or more of coupling studs and coupling recesses, the center of any of the coupling studs being separated from the center of a nearest coupling stud by a center-to-center spacing and the center of any of the coupling recesses being separated from the center of a nearest coupling recess by the center-to-center spacing, the toy figure set comprising:
- a plurality of interconnectible building elements configured to repeatably connect to and disconnect from each other to form a toy figure and to repeatably connect to the building elements of the construction set, at least some of the interconnectible building elements of the plurality including one or more of coupling studs and coupling recesses;
- a foundational building assembly that comprises a set of foundation building elements including: at least two core toy figure building elements, each of the core toy figure building elements comprising at least a first set of coupling elements separated from each other by a distance that is an integer multiple of the center-to-center spacing, and a connection building element that is configured to connect to two or more of the at least two core toy figure building elements, wherein
- the toy figure set is buildable from the foundational building assembly and a set of interconnectible building elements, the set of interconnectible building elements comprising at least some of the plurality of interconnectible building elements, into a first design mode and a second design mode; and
- the toy figure set is transformable between the first design mode and the second design mode without disassembling the toy figure set.
14. The toy figure set of claim 13, wherein each of the core toy figure building elements comprises at least one coupling element configured to allow a connected building element to articulate in more than one plane.
15. The toy figure set of claim 13, wherein the core toy figure building elements comprise a pelvis building element and a torso building element, and the connection building element comprises a three-sided building element that includes at least one side that fits between the torso building element and the pelvis building element when the torso building element, the pelvis building element, and the three-sided building element are connected.
16. The toy figure set of claim 15, wherein the first set of coupling elements of the torso building element comprise two side recesses, the center of each side recess being separated by the center-to-center spacing, and the first set of coupling elements of the pelvis building element comprise two balls, the centers of the balls being separated from each other by the center-to-center spacing.
17. The toy figure set of claim 16, further comprising at least two leg building elements, each of the leg building elements comprising a socket that connects to one of the balls of the pelvis building element via a snap fit.
18. The toy figure set of claim 15, wherein the pelvis building element comprises a coupling stud that extends from a surface, the stud comprising a cavity and an outer wall; and the torso building element comprises a center recess between the two side recesses, the center recess configured to releasably connect with the stud of the pelvis building element, wherein, when the pelvis building element and the torso building element are connected, the stud is frictionally engaged at the cavity and at the outer wall.
19. The toy figure set of claim 15, wherein the pelvis building element and the torso building element remain interconnected during the transformation between the first design mode and the second design mode.
20. The toy figure set of claim 15, wherein the three-sided building element remains connected to both of the at least torso building element and the pelvis building element during the transformation between the first design mode and the second design mode.
21. The toy figure set of claim 13, wherein, when the foundational building assembly is assembled, at least one coupling element on each of the foundation building elements is separated from at least one coupling element on each of the other foundation building elements by an integer multiple of the center-to-center spacing.
22. The toy figure set of claim 13, wherein the at least two core toy figure building elements and the connection building element connect together via one or more non-snap frictional engagements.
23. A method of transformation, the method comprising:
- identifying a toy figure set comprising a plurality of interconnectible building elements that are configured to connect to building elements of a construction set, the toy figure set including a torso building element and a pelvis building element that interconnect with each other with an interference fit between a stud of the pelvis building element and a recess of the torso building element that enable the pelvis building element and the torso building element to rotate relative to each other;
- identifying a first design mode that includes the toy figure set;
- identifying a second design mode that includes the toy figure set and is distinct from the first design mode;
- identifying a construction of at least one of the first and second design modes, the construction identification describing how to connect the interconnectible building elements of the toy figure set into the at least one of the first and second design modes; and
- providing an explanation of a transformation between the first design mode and the second design mode, the transformation occurring without disassembling the toy figure set and the plurality of building elements.
24. A transformation construction system comprising:
- a toy figure set comprising a plurality of interconnectible building elements that are configured to connect to building elements of a construction set, the interconnectible building elements comprising: a torso building element and a pelvis building element that interconnect with each other by way of an interference fit; and at least a pair of transform building elements, each transform building element in the pair including: a non-transform coupling element that is configured to repeatably connect to one or more coupling elements of other building elements of the toy figure set, and a transform coupling element that is configured to repeatably connect to the other transform coupling element of the pair; and
- a construction explanation identifying: a first design mode that includes the toy figure set assembled from the plurality of interconnectible building elements, a second design mode that includes the toy figure set assembled from the plurality of interconnectible building elements, the second design mode being distinct from the first design mode, and instructions that present a transformation between the first design mode and the second design mode without disconnecting the plurality of building elements of the toy figure set, wherein the transformation shows: one or more of: unlocking the transform coupling elements of the transform building elements of a pair from each other, and locking the transform coupling elements of the transform building elements of a pair to each other; and articulating one or more building elements of the toy figure set relative to other building elements of the toy figure set without disconnecting the coupling elements of the building elements of the toy figure set.
25. The transformation construction system of claim 24, wherein the instructions that presents the transformation that shows one or more of unlocking the transform coupling elements of the transform building elements of a pair from each other show the connection between the non-transform coupling elements of the transform building elements being maintained with the coupling elements of the other building elements of the toy figure set.
Type: Application
Filed: Apr 28, 2015
Publication Date: Nov 5, 2015
Inventors: Evan Brooks (Pawtucket, RI), Jeremy Luettgen (West Warwick, RI), Salvatore F. Lama (Bolton, MA)
Application Number: 14/698,020