The present disclosure relates generally to toys, and more specifically to building block toys.
This invention refers to construction or building block toys, and in particular, to interconnecting construction pieces.
Children have played with and learned from their play with building blocks for many years. Such building blocks include different types of connectable blocks, from rudimentary stackable wood blocks to interlocking or otherwise engaging block systems. In some embodiments, the building blocks have had hinged elements that allow adjacent blocks to move relative to each other and create different shapes. However, such building blocks, including building blocks with hinged connections, have limited interconnection options that provide little variation to the different shapes being constructed. For instance, the hinged connections may be limited to 45 degree angles between the hinged pieces. It is an object of the present invention to provide a set of interlocking pieces with varying shapes and a capability for a variety of interconnection options.
The present disclosure may comprise one or more of the following features and combinations thereof.
An interlocking toy set may comprise a plurality of interlocking pieces. The plurality of interlocking pieces may comprise a planar body and a plurality of interlocking flanges.
In some embodiments, the planar body may include a top side, a bottom side opposite the top side, and a plurality of lateral edges. The plurality of lateral edges may extend between and interconnect the top and bottom sides. The plurality of interlocking flanges may extend away from each edge of the plurality of lateral edges.
In some embodiments, the plurality of interlocking flanges may be configured to interlock with corresponding interlocking flanges formed on a lateral edge of an adjacent interlocking piece of the plurality of interlocking pieces. The interlocked flanges may provide a snap-hinge connection that couples adjacent interlocking pieces together and allows the adjacent interlocking pieces to rotate relative to each other about an interlock pivot axis. The interlock pivot axis may be parallel to the lateral edge of the adjacent interlocking piece.
In some embodiments, the plurality of interlocking flanges may include a first interlocking flange, a second interlocking flange, and a third interlocking flange. The second interlocking flange may be spaced apart axially from the first interlocking flange relative to the interlock pivot axis to define a slot therebetween. The third interlocking flange may be spaced apart axially from the second interlocking flange relative to the interlock pivot axis. The third interlocking flange may be configured to extend into the slot formed between the first and second interlock flanges on the adjacent interlocking piece.
In some embodiments, the first interlocking flange may be shaped to include a first domed protrusion and a knob. The first domed protrusion may axially extend away from the first interlocking flange. The knob may axially extend away from the first interlocking flange opposite the first domed projection. In some embodiments, the knob may be configured to provide assistance in disassembling the adjacent interlocking pieces.
In some embodiments, the second interlocking flange may be shaped to include a second domed protrusion. The second domed protrusion may axially extend away from the second interlocking flange.
In some embodiments, the third interlocking flange may engage the first domed protrusion and the second domed protrusion to provide the snap-hinge connection therebetween. The snap-hinge connection may be configured to allow the adjacent interlocking pieces to form an acute angle between the planar body of one interlocking piece and the planar body of the adjacent interlocking piece. In some embodiments, the acute angle may be about 30 degrees.
In some embodiments, the plurality of lateral edges may include at least three lateral edges. In some embodiments, the plurality of lateral edges may include at least four lateral edges. In some embodiments, the plurality of lateral edges may include more than four lateral edges.
In some embodiments, the first interlocking flange may have a first thickness. The first thickness may be equal to a second thickness of the second interlocking flange. The first thickness may be greater than a third thickness of the third interlocking flange.
In some embodiments, the third interlocking flange may comprise a first side surface, a second side surface, a first depression, and a second depression. The second side surface may be spaced axially apart from the first side surface to define a thickness of the third interlocking flange. The first depression may extend into the first side surface and the second depression may extend into the second side surface.
In some embodiments, the first and second depressions may be configured to engage corresponding domed protrusions of the adjacent interlocking piece. The first and second depressions may engaged the corresponding domed protrusions of the adjacent interlocking piece to provide the snap-hinge connection therebetween.
In some embodiments, the first and second depressions may include a first portion and a second portion. The first portion may be located on the interlock pivot axis. The second portion may extend from the first portion to an edge of the third interlocking flange.
In some embodiments, the planar body may be shaped to include a hole. The hole may extend through the planar body from the top side to the bottom side at a center of the planar body.
In some embodiments, the hole may be shaped to include a plurality of lateral inner edges. The plurality of lateral inner edges may be equal to the number of plurality of lateral edges of the planar body.
In some embodiments, the hole may be shaped to include a plurality of lateral inner edges. The plurality of inner edges may be less than or greater than a number of lateral edges included in the plurality of lateral edges of the planar body.
According to another aspect of the present disclosure, an interlocking toy set may comprise a plurality of interlocking pieces. The plurality of interlocking pieces may comprise a planar body and a plurality of interlocking flanges.
In some embodiments, the planar body may include a plurality of lateral edges. The plurality of lateral edges may be of equal length. The plurality of lateral edges may be shaped to form a polygonal shape of the planar body.
In some embodiments, the plurality of interlocking flanges may extend away from each lateral edge of the plurality of lateral edges. The plurality of interlocking flanges may be configured to interlock with corresponding interlocking flanges formed on a lateral edge of an adjacent interlocking piece of the plurality of interlocking pieces.
In some embodiments, the interlocked flanges may provide a snap-hinge connection that couples adjacent interlocking pieces together and allows the adjacent interlocking pieces to rotate relative to each other about an interlock pivot axis. The interlock pivot axis may be parallel to the lateral edge of the adjacent interlocking piece.
In some embodiments, the plurality of interlocking flanges may include a first interlocking flange, a second interlocking flange, and a third interlocking flanges. The second interlocking flange may be spaced apart axially from the first interlocking flange relative to the interlock pivot axis to define a slot therebetween. The third interlocking flange may be spaced apart axially from the second interlocking flange relative to the interlock pivot axis.
In some embodiments, the first interlocking flange may be shaped to include a first domed protrusion. The first domed protrusion may axially extend away from the first interlocking flange.
In some embodiments, the second interlocking flange may be shaped to include a second domed protrusion. The second domed protrusion may axially extend away from the second interlocking flange.
In some embodiments, the third interlocking flange may be configured to extend into the slot formed between the first and second interlock flanges on the adjacent interlocking piece. The third interlocking flange may engage the first and second domed protrusions to provide the snap-hinge connection therebetween,
In some embodiments, the snap-hinge connection may be configured to allow the adjacent interlocking piece to form an acute angle therebetween. The acute angle may be about 30 degrees.
In some embodiments, the plurality of lateral edges may include at least three lateral edges. In some embodiments, the first interlocking flange may have a first thickness equal to a second thickness of the second interlocking flange and greater than a third thickness of the third interlocking flange.
In some embodiments, each third interlocking flange may comprise a first side surface, a second side surface, a first depression, and a second depression. The second side surface may be spaced axially apart from the first side surface to define a thickness of the third interlocking flange.
In some embodiments, a first depression may extend into the first side surface and the second depression may extend into the second side surface. The first and second depressions may be configured to engage corresponding domed protrusions of the adjacent interlocking piece to provide the snap-hinge connection therebetween.
In some embodiments, the first interlocking flange may be shaped to include a knob. The knob may axially extend away from the first interlocking flange opposite the domed projection included in the first interlocking flange.
In some embodiments, the planar body may be shaped to include a hole. The hole may extend through the planar body at a center of the planar body.
These and other features of the present disclosure will become more apparent from the following description of the illustrative embodiments.
For the purposes of promoting an understanding of the principles of the disclosure, reference will now be made to a number of illustrative embodiments illustrated in the drawings and specific language will be used to describe the same.
An illustrative interlocking toy set 10 is shown in
Each of the square interlocking pieces 12 included in the plurality of interlocking pieces 12, 10 includes a planar body 16 and a plurality of interlocking flanges 18, 20, 22, 24 as shown in
The adjacent interlocking pieces 12′ are identical to the interlocking pieces 12. The description of the interlocking pieces 12 is incorporated by reference to apply to the adjacent interlocking pieces 12′.
The plurality of interlocking flanges 18, 20, 22, 24 of one interlocking piece 12 interlock with interlocking flanges 18′, 20′, 22′, 24′ of an adjacent interlocking piece 12′ to provide a snap-hinge connection 38 as shown in
Unlike other hinged toy pieces, the snap-hinge connection 38 is configured to allow the adjacent interlocking pieces 12, 12′ to form an acute angle α between the planar body 16 of one interlocking piece 12 and the planar body 16′ of the adjacent interlocking piece 12′ as shown in
The plurality of lateral edges 30, 32, 34, 36 includes at least four lateral edges 30, 32, 34, 36 in the illustrative embodiment. The first lateral edge 30 is spaced laterally apart from the second lateral edge 32 and is parallel to the second lateral edge 32. The third lateral edge 34 and the fourth lateral edge 36 extend between and interconnect the first and second lateral edges 30, 32 and are parallel to each other. In some embodiments, the plurality of lateral edges 30, 32, 34, 36 include more than four lateral edges. In other embodiments, the plurality of lateral edges 30, 32, 34, 36 may include a different number of lateral edges, for example 5, 6, 7, 8, 9, or 10.
In the illustrative embodiment, the plurality of interlocking flanges 18, 20, 22, 24 on each lateral edge 30, 32, 34, 36 of the planar body 16 includes a first interlocking flange 42, a second interlocking flange 44, and a third interlocking flange 46 as shown in
The third interlocking flange 46 is configured to extend into the slot 48′ formed between the first and second interlock flanges 42′, 44′ on the adjacent interlocking piece 12′ as shown in
Each of the first interlocking flanges 42 and the second interlocking flanges 44 are shaped to include a domed protrusion 56, 64 as shown in
The first interlocking flange 42 comprises a first side surface 50, a second side surface 52, a knob 54, and the first domed protrusion 56 as shown in
The knob 54 is configured to provide a grip for a user to aid in dis-engaging the snap-hinge connection 38, while also providing a visual indicator as to the correct alignment of the interlocking flanges 42, 44, 46. The
In the illustrative embodiment, the knob 54 extends to a terminal end 94 that is flush with the perpendicular lateral edge 30, 32, 34, 36. In this way, the knob 54 is short enough so as to not interfere with adjacent interlocking pieces 12′ when assembling different shapes and objects.
In the illustrative embodiment, the second interlocking flange 44 comprises a first side surface 60, a second side surface 62, and the second domed protrusion 64 as shown in
Each third interlocking flange 46 comprises a first side surface 68, a second side surface 70, and depressions 72, 74 as shown in
In the illustrative embodiment, the first thickness t1 of the first interlocking flange 42 and the second thickness t2 of the second interlocking flange 44 are equal. The third thickness t3 of the third interlocking flange 46 is greater than the first and second thicknesses t1, t2 of the first and second interlocking flanges 42, 44.
The first and second depressions 72, 74 each include a first portion 78 and a second portion 80 as shown in
In the illustrative embodiment, the second portion 80 of the first depression 72 extends to an upper edge 96 of the third interlocking flange 46. The second portion 80 of the second depression 74 extends in the opposite direction to a lower edge 98 of the third interlocking flange 46.
In the illustrative embodiment, when the third interlocking flange 46 is located in the slot 48′, the first depression 72 engages with the first domed protrusion 56′ of the first interlocking flange 42′ and the second depression 74 engages with the second domed protrusion 64′ of the second interlocking flange 44′.
In the illustrative embodiments, the terminal ends 58, 66, 76 of the interlocking flanges 42, 44, 46 are rounded as shown in
In the illustrative embodiments, the first and second interlocking flanges 42, 44 are spaced axially apart relative to the interlock pivot axis 40 a first distance d1. The third interlocking flange 46 is spaced apart from the second interlocking flange a second distance d2. The second distance d2 is greater than the first distance d1 so that there is a space 41 between the second flange 44 of one interlocking piece 12 and the second flange 44′ of the adjacent interlocking piece 12′ when engaged in the snap-hinge connection 38. The space 41 prevents interference between the second flanges 44, 44′ of the adjacent interlocking pieces 12, 12′ that would otherwise block rotation of the pieces 12, 12′ relative to each other.
Turning again to the planar body 16 of the square interlocking pieces 12, the planar body 16 is shaped to include a hole 82 as shown in
In the illustrative embodiment, the hole 82 is shaped to include a plurality of lateral inner edges 86, 88, 90, 92 as shown in
A method of assembling two interlocking pieces 12, 12′ together includes inserting the third interlocking flange 46 of one piece 12 into the slot 48′ of the adjacent piece 12′, while simultaneously inserting the third interlocking flange 46′ of the adjacent piece 12′ into the slot 48 of the other piece 12. To insert the third interlocking flanges 46, 46′ into the respective slots 48, 48′, the two pieces 12, 12′ are aligned so that the corresponding lateral edge 30, 32, 34, 36 of one piece 12 is parallel to the corresponding lateral edge 30′ 32′ 34′, 36′ of the adjacent piece 12′ to be interlocked with the one piece 12. The pieces 12, 12′ are also aligned so that the third interlocking flange 46 of one piece 12 is lines up with the slot 48′ of the adjacent piece 12′, while the third interlocking flange 46′ of the adjacent piece 12′ lines up with the slot 48 of the other piece 12.
To aid in aligning the pieces 12, 12′, the knobs 54, 54′ of each piece 12, 12′ may be oriented so that the knob 54′ of the adjacent piece 12′ extends in the opposite direction of the knob 54 of the other piece 12. In doing so, the slots 48, 48′ and third interlocking flanges 46, 46′ will be orientated in the correct position to be inserted into one another.
To ensure the snap-hinge connection 38 is engaged, the interlocking flanges 46, 46′ are inserted in the corresponding slots 48, 48′ until the concave depressions 72, 74 of the third interlocking flange 46 of one piece 12 are engaged in the protrusions 56′, 64′ of the first and second interlocking flanges 42′, 44′ of the adjacent piece 12′. Similarly, the concave depressions 72′, 74′ of the third interlocking flange 46′ of the adjacent piece 12′ are engaged in the protrusions 56, 64 of the first and second interlocking flanges 42, 44 of the other piece 12.
Once the snap-hinge connection 38 is engaged, the pieces 12, 12′ may be rotated relative to one another as illustrated in
Additionally, another piece 12′ may be coupled to any of the other remaining plurality of interlocking flanges 18, 22, 24 of the interlocking piece 12. Or, another piece 12 may be coupled to any of the other remaining plurality of interlocking flanges 20′, 22′, 24′ of the adjacent piece 12′. The previous steps may be repeated to interlock additional pieces 12 to the other remaining lateral sides 30, 34, 36 of the piece 12 and/or the other remaining lateral sides 32′ 34′ 36 of the adjacent piece 12′.
Turning again to the triangular interlocking pieces 14, each of the triangular interlocking pieces 14 included in the plurality of interlocking pieces 12 and 14 includes a planar body 17 and a plurality of interlocking flanges 19, 21, 23 as shown in
The plurality of interlocking flanges 19, 21, 23 are identical to the interlocking flanges 18, 20, 22, 24 of the square interlocking pieces 12. The plurality of interlocking flanges 19, 21, 23 extend away from each lateral edge 31, 33, 35 of the plurality of lateral edges 31, 33, 35 and are configured to interlock with corresponding interlocking flanges 18, 20, 22, 24 formed on a lateral edge 30, 32, 34, 36 of an adjacent interlocking piece 12. The plurality of interlocking flanges 19, 21, 23 are also configured to interlock with corresponding interlocking flanges 19, 21, 23 of an adjacent triangular interlocking piece 14 or interlocking piece with a different geometric pattern such as interlocking piece 12 which has a square pattern.
The plurality of interlocking flanges 18, 19, 20, 21, 22, 23, 24 of adjacent interlocking pieces 12, 14 interlock together to provide the snap-hinge connection 38 as shown in
The plurality of lateral edges 31, 33, 35 includes at three lateral edges 31, 33, 35 of equal length in the illustrative embodiment. The plurality of interlocking flanges 19 extends from the first lateral edge 31. The plurality of interlocking flanges 21 extends from the second lateral edge 33. The plurality of interlocking flanges 23 extends form the third lateral edge 35.
In the illustrative embodiment, the plurality of interlocking flanges 19, 21, 23 on each lateral edge 31, 33, 35 of the planar body 17 includes a first interlocking flange 43, a second interlocking flange 45, and a third interlocking flange 47 as shown in
The third interlocking flange 47 is configured to extend into the slot 48 formed between the first and second interlock flanges 42, 44 on the adjacent interlocking piece 12 as shown in
The third interlocking flange 47 is also configured to extend into the slot 49 formed between the first and second interlock flanges 43, 45 on an adjacent interlocking piece 14. The third interlocking flange 47 engages the first and second interlock flanges 43, 45 to provide the snap-hinge connection 38 therebetween.
Each of the first interlocking flanges 43 and the second interlocking flanges 45 are shaped to include a domed protrusion 57, 65 as shown in
The first interlocking flange 43 comprises a first side surface 51, a second side surface 53, a knob 55, and the first domed protrusion 57 as shown in
In the illustrative embodiment, the second interlocking flange 45 comprises a first side surface 61, a second side surface 63, and the second domed protrusion 65 as shown in
Each third interlocking flange 47 comprises a first side surface 69, a second side surface 71, and depressions 73, 75 as shown in
The first and second depressions 73, 75 are configured to engage corresponding domed protrusions 56, 64 of the adjacent interlocking piece 12 to provide the snap-hinge connection 38 therebetween. The first and second depressions 73, 75 are also configured to engage the corresponding domed protrusions 57, 65 of the adjacent interlocking piece 14 to provide the snap-hinge connection 38 therebetween.
In the illustrative embodiment, when the third interlocking flange 47 is located in the slot 48, the first depression 73 engages with the first domed protrusion 56 of the first interlocking flange 42 and the second depression 75 engages with the second domed protrusion 64. When interlocking two triangular pieces 14, the third interlocking flange 47 is located in the slot 49 so that the first depression 73 engages with the first domed protrusion 57 of the first interlocking flange 43 and the second depression 75 engages with the second domed protrusion 65.
Each of the interlocking flange 43, 45, 47 has a length that are equal to the lengths L1, L2, L3 of the interlocking flanges 42, 44, 46. The lengths L1, L2, L3 of each of the flanges 42, 44, 46 are equal.
In the illustrative embodiments, the first and second interlocking flanges 43, 45 are spaced axially apart relative to the interlock pivot axis 40 a distance that is equal to the distance d1. The third interlocking flange 46 is spaced apart from the second interlocking flange a distance that is equal to the distance d2.
Turning again to the planar body 17 of the triangular interlocking piece 14, the planar body 17 is shaped to include a hole (or space) 83 as shown in
In the illustrative embodiment, the hole 83 is shaped to include a plurality of lateral inner edges 87, 89, 91 as shown in
A method of assembling two interlocking pieces 12, 14 together includes inserting the third interlocking flange 46 of one piece 12 into the slot 49 of the adjacent piece 14, while simultaneously inserting the third interlocking flange 47 of the adjacent piece 14 into the slot 48 of the other piece 12. To insert the third interlocking flanges 46, 47 into the respective slots 48, 49, the two pieces 12, 14 are aligned so that the corresponding lateral edge 30, 32, 34, 36 of one piece 12 is parallel to the corresponding lateral edge 31, 33, 35 of the adjacent piece 14 to be interlocked with the one piece 12. The pieces 12, 14 are also aligned so that the third interlocking flange 46 of one piece 12 is lines up with the slot 49 of the adjacent piece 14, while the third interlocking flange 47 of the adjacent piece 14 lines up with the slot 48 of the other piece 12.
To aid in aligning the pieces 12, 14, the knobs 54, 55 of each piece 12, 14 may be oriented so that the knob 55 of the adjacent piece 14 extends in the opposite direction of the knob 54 of the other piece 12. In doing so, the slots 48, 49 and third interlocking flanges 46, 47 will be orientated in the correction position to be inserted into one another.
To ensure the snap-hinge connection 38 is engaged, the interlocking flanges 46, 47 are inserted in the corresponding slots 48, 49 until the depressions 72, 74 of the third interlocking flange 46 of one piece 12 are engaged in the protrusions 57, 65 of the first and second interlocking flanges 43, 45 of the adjacent piece 14. Similarly, the depressions 73, 75 of the third interlocking flange 47 of the adjacent piece 14 are engaged in the protrusions 56, 64 of the first and second interlocking flanges 42, 44 of the other piece 12.
Once the snap-hinge connection 38 is engaged, the pieces 12, 14 may be rotated relative to one another as suggested by
Additionally, another piece 12, 14 may be coupled to any of the other remaining plurality of interlocking flanges 18, 22, 24 of the interlocking piece 12. Or, another piece 12, 14 may be coupled to any of the other remaining plurality of interlocking flanges 21, 23 of the adjacent piece 14. The previous steps may be repeated to interlock additional pieces 12, 14 to the other remaining lateral sides 30, 34, 36 of the piece 12 and/or the other remaining lateral sides 33, 35 of the adjacent piece 14.
Additionally, two triangular interlocking pieces 14 may be interlocked together by inserting the third interlocking flange 47 of one piece 14 into the slot 49 of the adjacent piece 14, while simultaneously inserting the third interlocking flange 47 of the adjacent piece 14 into the slot 49 of the other piece 12. To insert the third interlocking flanges 47 into the respective slots 49, the two pieces 14 are aligned so that the corresponding lateral edge 31, 33, 35 of one piece 14 is parallel to the corresponding lateral edge 31, 33, 35 of the adjacent piece 14 to be interlocked with the one piece 14. The pieces 14 are also aligned so that the third interlocking flange 47 of one piece 14 is lines up with the slot 49 of the adjacent piece 14, while the third interlocking flange 47 of the adjacent piece 14 lines up with the slot 49 of the other piece 14.
To aid in aligning the pieces 14, the knobs 55 of each piece 14 may be oriented so that the knob 55 of the adjacent piece 14 extends in the opposite direction of the knob 55 of the other piece 14. In doing so, the slots 49 and third interlocking flanges 47 will be orientated in the correction position to be inserted into one another.
Once the snap-hinge connection 38 is engaged, the pieces 14 may be rotated relative to one another. The piece 14 may be rotated until the desired angle between the two pieces 14 is achieved.
While the disclosure has been illustrated and described in detail in the foregoing drawings and description, the same is to be considered as exemplary and not restrictive in character, it being understood that only illustrative embodiments thereof have been shown and described and that all changes and modifications that come within the spirit of the disclosure are desired to be protected.