This disclosure relates to a moldable material toy builder.
Persons of all ages enjoy playing and interacting with toys.
In one aspect, a toy set includes: a first mold portion including: a first base portion, and an indentation formation portion extending from the first base portion, the indentation formation portion including an edge. The first mold portion is configured to receive a moldable material, the indentation formation portion is configured to form an indentation in a first side of the moldable material, and the indentation allows the moldable material to fold without separating.
Implementations may include one or more of the following features. The indentation formation portion may be arranged to form a plurality of design regions. The first base portion may define an opening in each of the design regions. Each opening may be shaped as indicator that corresponds to a step of a sequence of instructions for forming a toy from the moldable material. The toy set also may include data representing the sequence of instructions. The data representing the sequence of instructions may include one or more of a physical object containing the sequence of instructions or a location of the sequence of instructions. Each indicator may include a number, and all of the numbers in the first base portion may be different. The toy set also may include a pressing device configured to apply pressure to the first side of the moldable material through any one of the openings.
In some implementations, the toy set also includes a second mold portion. The second mold portion may include: a second base portion, and at least one design projection extending from the second base portion. The first mold portion may include a plurality of openings, the design projection may be formed on a first side of the second base portion, tabs may extend from a second side of the second base portion, and each tab may be configured to fit into one of the plurality of openings in the first base portion. The first mold portion and the second mold portion may be permanently connected to each other by a connection mechanism. The connection mechanism may be configured to allow the first mold portion and the second mold portion to rotate relative to each other. The connection mechanism may include a hinge. The first base portion of the first mold portion may include a first perimeter having a first shape, the second base portion of the second mold portion may include a second perimeter having a second shape, and the first and second shapes are substantially the same. The perimeter of the first mold portion may fit within the perimeter of the second mold portion or the perimeter of the second mold portion may fits within the perimeter of the first mold portion.
In some implementations, the toy set also includes the moldable material. The toy set also may include a canister configured to hold the moldable material.
The toy set also may include a support structure configured to hold the moldable material after the indentation is formed.
The indentation formation portion may include a tapered edge.
The first mold portion may include a plurality of indentation formation portions, and at least one of the plurality of indentation formation portions may include one or more spatial properties that are different from the same one or more spatial properties of at least one other of the plurality indentation formation portions.
The first mold portion may further include a design projection extending from the first side of the first base portion. The design projection may be configured to form an imprint in the first side of the moldable material. The moldable material may be configured to fold at the indentation portion such that the imprint is on an exterior of a toy made using the moldable material.
In another aspect, a method of forming a toy from a moldable material includes: placing the moldable material into a first mold portion, the first mold portion including an indentation formation portion; pressing the moldable material into the first mold portion and the indentation formation portion to thereby form an indentation in a first side of the moldable material; removing the moldable material from the first mold portion; and forming the toy by folding the moldable material at the indentation.
Implementations may include one or more of the following features. Removing the moldable material from the first mold portion may include pressing the first side of the moldable material through one or more openings in the first mold portion. Pressing the moldable material into the first mold portion and the indentation formation portion may include flattening the moldable material into the first mold portion. The first mold portion may include an opening defined in a first base portion, the opening extends along a direction that is orthogonal to a direction in which the indentation formation portion extends, and pressing the moldable material into the indentation formation portion farther may form an outline of the opening on the first side of the moldable material. The first mold portion may include a plurality of openings, and pressing the moldable material into the first mold may form an outline of each of the openings on the first side of the moldable material. Each of the openings may have a different shape and may correspond to a step in a sequence of instructions, and forming the toy by folding the moldable material at the indentation may include folding the moldable material based on the shape of the outline and the corresponding step in the sequence of instructions.
In some implementations, the method also includes: pressing a second mold portion including at least one design projection into a second side of the moldable material to thereby imprint the at least one design projection onto the second side of the moldable material; and separating the second mold portion from the second side of the moldable material. Separating the second mold portion from the second side of the moldable material may include pulling the second mold portion away from the second side of the moldable material. Pressing the second mold portion into the second side of the moldable material may include rotating the second mold portion about a connection point that connects the first mold portion and the second mold portion until the at least one design projection is pressed into the second side of the flattened moldable material in the first mold portion. Removing the moldable material from the first mold portion may include rotating the second mold portion about the connection point until tabs on the second mold portion press on the first side of the flattened moldable material though one or more openings in the first mold portion.
Forming the toy by folding the moldable material at the indentation may include folding the moldable material over a support structure.
Forming the toy by folding the moldable material at the indentation may include folding the moldable material into an object that has an open region. The open region may be enclosed by the moldable material such that the object is hollow.
Pressing the moldable material into the first mold portion may form more than one indentation in the first side of the moldable material; and forming the toy by folding the moldable material may include folding the moldable material at more than one indentation to thereby form a hollow object. Forming the toy by folding the moldable material at the indentation may include folding the moldable material into a hollow object that has an open region surrounded by moldable material and the imprint of the one or more design projections faces away from the open region.
In another aspect, a toy set includes: a first mold portion including: a first base portion, and a plurality of formation portion extending from the first base portion, each of the plurality of indentation formation portions including an edge; and a second mold portion including: a second base portion, and at least one design projection extending from the second base portion. The first mold portion is configured to receive a moldable material, each of the plurality of tapered edges is configured to form an indentation in a first side of the moldable material, each of the plurality of indentations is configured to allow the moldable material to fold without separating, and each of the at least one design projections is configured to form an imprint in a second side of the moldable material while the moldable material is received in the first mold portion.
Implementations of any of the techniques described above may include a toy set, a first mold portion, a second mold portion, and first and second mold portion, and/or a method of forming a toy from a moldable material. 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.
The moldable material 102 may be, for example, putty, clay, and/or a dough substance (for example, PLAY-DOH®, available from Hasbro, Inc. of Pawtucket, R.I.). The moldable material 102 may be stored in a canister or other container that may be included with the toy set 100. The first mold portion 110 includes indentation formation portions 112a-112e (collectively referred to as an indentation formation portion 112) and a cutting portion 114 that surrounds the indentation formation portion 112 in the x-y plane. In the example of
To form the segment 108, the user presses the moldable material 102 into the first mold portion 110. The cutting portion 114 passes through the moldable material 102 to form the segment 108 of the moldable material 102.
The interaction between the indentation formation portions 112a-112e and the moldable material 102 forms respective indentations 105a-105e on a side 104 of the segment 108. The indentations 105a-105e divide the segment 108 into a plurality of sub-segments 108a-108e. The indentations 105a-105e do not pass through the moldable material 102 and the moldable material 102 is able to fold about the indentations 105a-105e without separating. Because the moldable material 102 is able to fold about the indentations 105a-105e, the first mold portion 110 allows a user to form a three-dimensional toy 150 (
Other implementations are possible. For example, the indentation formation portions 112a-112e may form respective indentations 105a-105e that are non-right triangles, rectangles, polygonal, or curves. In these implementations, the sub-segments 108a-108e and 108x are not necessarily held perpendicular to adjoining sub-segments after being folded. Moreover, in other implementations, the indentation formation portions 112a-112e are not identical to each other.
The first mold portion 210 is an example of an implementation of the first mold portion 110. The first mold portion 210 may be part of a toy set such as the toy set 100.
The first mold portion 210 includes a first base portion 211, an indentation formation portion 212, and a cutting portion 214. The indentation formation portion 212 is shown with gray shading. The indentation formation portion 212 and the cutting portion 214 extend from a first side 213 of the first base portion 211 along the z direction. The base portion 211 generally extends in the x-y plane and may include flat surfaces.
Referring to
In the example shown in
The cutting portion 214 surrounds the indentation formation portion 212 in the x-y plane. In the example of
The indentation formation portion 212 has an extent 221 in the z direction, and the cutting portion 214 has an extent 222 in the z direction. The indentation formation portion 212 has an extent 224 in the y direction. The extents 221 and 222 are relative to the first side 213. The extent 222 is greater than the extent 221. In other words, the cutting portion 214 extends farther from the first side 213 than the indentation formation portion 212 extends from the first side 213.
The indentation formation portion 212 is made from any material that is capable of making an indentation in the moldable material 102. The cutting portion 214 is made from any material that is capable of separating or dividing the moldable material 102. For example, the indentation formation portion 212 and the cutting portion 214 may be made from a molded plastic material or a metal material. The indentation formation portion 212 may be made from a material that is softer than the cutting portion 214. In some implementations, the indentation formation portion 212 and the cutting portion 214 are made from the same material or the same type of material.
In operational use, a side 204 of the moldable material 102 is placed on the first mold portion 210 and pressed toward the first side 213. For example, the moldable material 102 may be placed on top of the first mold portion 210 and rolled out or flattened with a rod or rolling pin like device. Referring also to
After flattening or rolling the moldable material 102 into the first mold portion 210, the flattened segment 208 is removed from the first mold portion 210.
There are a range of possible dimensions for the extents 221, 222, and 224. The particular values of the extents 221, 222, and 224 depends on the desired form of the folded object or toy to be built. For example, if the first mold portion 210 is designed to make a roof structure for a relatively large toy house, the extent 224 may be 25 centimeters (cm). In another example, the first mold portion 210 is designed to make a roof structure for a relatively small toy house, and the extent 224 is 2.5 cm. The larger roof structure requires more of the moldable material than the smaller roof structure. Accordingly, the larger roof structure requires more support. The extent 222 determines the thickness of the moldable material used to form the roof structure. The extent 222 of a mold portion used to make the relatively large roof structure is greater than the extent 222 of a mold portion used to make the relatively small roof structure. Similarly, the extent of 221 of the indentation formation portion 212 is greater for a mold portion used to make a relatively large roof structure. For example, for a relatively small roof structure, the extent 222 may be, for example, about 8 millimeters (mm). The extent 221 may be, for example, about 6 mm. For a relatively large roof structure, the extent 222 may be, for example, about 8 cm, and the extent 221 may be, for example, about 6 cm.
Referring to
The first mold portion 310 also includes openings 319a, 319b that pass through the base portion 311 in the z direction. The openings 319a, 319b are on opposite sides of the indentation formation portion 312. The openings 319a, 319b are defined by respective edges 323a, 323b of the base portion 311. In the example of
Like the first mold portions 110 (
Referring to
In the example of
Referring also to
The second mold portion 440 includes a second base portion 441. The second base portion 411 is a plate-like or flat structure that extends generally in the x-y plane. The second base portion 441 is made of any type of material that is sufficiently sturdy to support repeated manipulation and use by the user. The second base portion 441 may be a rigid material such as, for example, molded plastic or metal. The second base portion 441 may be a flat or plate-like structure. The second base portion 441 has an outer rectangular perimeter 446. The outer rectangular perimeter 446 is smaller than the cutting portion 414. Thus, in the example of
The second mold portion 440 includes design projections 442 and 444. The design projections 442 and 444 extend from a side 443 in the z direction. The design projections 442 and 444 are made from any rigid material that is able to make an imprint into the moldable material 102. For example, the design projections 442 and 444 may be made of a molded plastic or a metal. The design projections 442 and 444 may be, for example, strips of the rigid material that are arranged on a side 443 of the base portion in the shape of, for example, decorative patterns, objects, animals, or abstract designs. In the example of
Referring to
The connection mechanism 560 is any type of mechanism that allows the first mold portion 410 and the second mold portion 440 to move relative to each other such that the side 413 of the first mold portion 410 and the side 443 may be positioned to face each other. For example, the connection mechanism 560 may be a hinge that allows the first mold portion 410 and the second mold portion 440 to rotate relative to each other. In another example, the connection mechanism 560 may be a strap of a bendable material. In some implementations, the connection mechanism 560 is permanently connected to the ends 427 and 447. In other implementations, the connection mechanism 560 may be repeatedly connected and disconnected from the end 427 and/or the end 447.
Referring to
Referring to
The second mold portion 640 includes a base portion 641 that has a side 643 (
The moldable material 102 is placed into the first mold portion 610 (710). For example, the first mold portion 610 may be placed on sturdy surface or support 870 (
The moldable material 102 is pressed into the indentation formation portion 412 (720). For example, the moldable material 102 may be pressed into the indentation formation portion 412 by rolling the moldable material 102 in the x and y directions with a rolling pin or rod such that the moldable material 102 is flattened into a disk that extends in the x-y plane. In another example, a user may press on the moldable material 102 with their hands to flatten the moldable material 102 into a disk that covers the first mold portion 610. In yet another example, the moldable material 102 is a gel substance or other flowable substance that is capable of being shaped and holding a stable shape. In these implementations, the moldable material 102 may be completely or partially self-leveling and may be pressed into the indentation formation portion 412 without force being applied by the user. In these implementations, the moldable material 102 is pressed into the indentation formation portion 412 due to the physical properties of the moldable material 102 itself and the moldable material 102 spreads in the first mold portion 610 independently of force applied by the user.
Referring also to
The moldable material 102 has a side 803 that faces away from the support 870 and a side 804 (
Referring again to
The second mold portion 640 is separated from the moldable material 102 (740). For example, the second mold portion 640 may be pulled off of the moldable material 102. The moldable material 102 is removed from the first mold portion 610 (750). The moldable material 102 may be removed from the first mold portion 610 by pushing on the side 804 in the z direction through the openings 619. The user may push on the side 804 with, for example, their hand or a solid object such as a rod (such as shown in
Moreover, the tabs 648 also may be used to remove the moldable material 102 from the first mold portion 610. For example, the side 645 of the second mold portion 640 may be pressed against the side of the first mold portion 610 that is opposite the side 413 with the tabs 648 aligned with the openings 619. In this way, the tabs 648 may be used to push the moldable material 102 out of the first mold portion 210.
Referring also to
A toy 850 (
The indentation formation portion 912 is a collection of wedge shaped objects that are configured to form indentations in the moldable material 102. In the example of
The indentation formation portions 912 form a plurality of design regions, each of which includes an opening 919. Only one of the openings 919 is labeled in
The second mold portion 940 includes a base portion 941 that extends in the x-y plane. The base portion 941 includes a plurality of design projections that extend in the z direction from a side 943 of the base portion 941. The design projections include a design projection 942 and a design projection 944. Like the design projections 442 and 444, the design projections of the second mold portion 940 are configured to make a decorative imprint on the moldable material 102.
The moldable material 102 is removed from the first mold portion 910. For example, the moldable material 102 may be removed from the first mold portion 910 using a pressing device 990 (
The moldable material 102 that is removed from the first mold portion 910 is a continuous single segment of the moldable material 102 that includes indentations and outlines of the edges 923 on one side and imprints on the other side. The user folds the segment at the indentations to form the toy 950 (
The first mold portion 910 (
The indentation formation portions 912a and 912b have the same spatial properties and are identical. Thus, the indentation formation portions 912a and 912b form identical indentations in the moldable material. The indentation formation portions 912a and 912b are used to make sub-segments in the moldable material that are folded into sidewalls and a base for the toy house. Having the same sized indentation ensures that the angles achieved between the walls and the base are the same once folded. The indentation formation portions 912c and 912d are used to make sub-segments that are roof panels 987 (
In some implementations, the toy set 900 includes instructions for building the toy 950 from the segment. The instructions may include a list of sequential steps that correspond to the outlines of the edges 923. For example, the instructions may include a step “1” that corresponds to the edge 923 that is shaped like the number 1, a step “2” that corresponds to edge 923 that is shaped like the number 2, and so on. Thus, in addition to providing additional stability and traction while pressing the moldable material 102 into the first mold portion 910, in this example, the openings 919 also help the user form the toy 950. The instructions may be included on a physical medium, such as paper or an electronic memory that is packaged with the toy set 900. In other examples, the instructions may be stored electronically at a location that is remote to the user and are available to the user through, for example, the Internet. In these examples, the toy set 500 also may include a summary set of instructions to guide the user in obtaining the complete instructions.
Other implementations are within the scope of the claims. For example, the first mold portion 610 and the second mold portion 640 may be connected by a connection mechanism such as the connection mechanism 560. The first mold portion 910 and the second mold portion 940 may be connected by a connection mechanism such as the connection mechanism 560. Any of the first mold portions 110, 210, 310, 410, 510, 610, 910 may be made without the respective cutting portion.
Moreover, the example first mold portions 110, 210, 310, 410, 610, and 910 and the second mold portions 440, 640, and 940 discussed above are formed on generally flat base portions or bases. However, in other implementations, the first mold portion and/or the second mold portion have non-flat supports, bases, or regions from which indentation formation portions extent and/or are formed.
Moreover, the first mold portion and the second mold portion do not necessarily extend in a flat plane.
Referring to
The first mold portion 1210 includes indentation formation portions 1212a and 1212b. The indentation formation portions 1212a and 1212b extend in the z direction from a first side 1213 of a base portion 1211. The indentation formation portions 1212a and 1212b also extend in the x and y directions. Each of the formation portions 1212a and 1212b have a greater extent in the x direction than in the y direction. The indentation formation portions 1212a and 1212b are used to form indentations 1205a and 1205b (
The base portion 1211 has a rectangular shape in the x-y plane. The base portion 1211 has an outer perimeter 1226 that lies in the x-y plane. The base portion 1211 is made of any type of material that is sufficiently sturdy to support repeated manipulation and use by the user. The base portion 1211 may be a rigid material such as, for example, molded plastic or metal.
The first mold portion 1210 also includes a cutting portion 1214. The cutting portion 1214 extends from the first side 1213 in the z direction and extends farther in the z direction than the indentation formation portions 1212a and 1212b. The cutting portion 1214 also has a rectangular shape in the x-y plane. In the example shown, the cutting portion 1214 is within the outer perimeter 1226. Other implementations are possible. For example, the cutting portion 1214 may be at the outer perimeter 1226 such that the cutting portion 1214 and the outer perimeter 1226 spatially overlap. In other implementations, the cutting portion 1214 and the outer perimeter 1226 partially overlap such that only some of the cutting portion 1214 is at the outer perimeter 1226.
The first mold portion 1210 includes a first design region 1254a and a second design region 1254b. Each of the design regions 1254a and 1254b includes design projections 1244. For simplicity, only one design projection 1244 is labeled in each of the design regions 1254a and 1254b. The design projections 1244 extend from the first side 1213 in the z direction. The design projections 1244 have an extent in the z direction that is smaller than the extent of the indentation formation portions 1212a and 1212b in the z direction and is smaller than the extent of the cutting portion 1214 in the z direction. The design projections 1244 are made from any rigid material that is able to make an imprint into the moldable material 102. For example, the design projections 1244 may be made of a molded plastic or a metal. Like the design projections 442, 444, 942, 944, the design projections 1244 are configured to make a decorative imprint on the moldable material 102.
The base portion 1211 also has a recessed region 1249. The recessed region 1249 has a rectangular shape in the x-y plane. The recessed region 1249 surrounds a space that includes the first design region 1254a and the second design region 1254b.
Referring also to
The toy 1250 is a roof structure that may be used as the roof of a toy house. To form the toy 1250, the moldable material 102 is placed in the first side 1213 of the first mold portion 1210. The moldable material 102 is pressed against the indentation formation portions 1212a and 1212b, the design projections 1244, and into the recessed region 1249. For example, the moldable material 102 may be flattened into the first mold portion 1210 with a rod or by a user pressing on the moldable material 120 with their hand.
Pressing the moldable material 102 into the first mold portion 1210 causes the cutting portion 1214 to cut the moldable material 102 into the segment 1208 (
The segment 1208 is removed from the first mold portion 1210. For example, the segment 1208 may be removed from the first mold portion 1210 by pulling on one edge or corner of the segment 1208. The segment 1208 is a continuous single piece of the moldable material 102 that includes the indentations 1205a and 1205b and the imprints 1287 on the side 1203. The segment 1208 rotates or folds about the formed indentations 1205a and 1205b without separating. Specifically, sub-segments 1208a and 1208b are folded at the respective indentations 1205a and 1205b. The sub-segment 1208b is rotated along an arc B toward the sub-segment 1208a. The segment 1208b is folded such that imprints 1287 made by the design projection 1244 are on the exterior of the toy 1205.
Referring to
The first mold portion 1310 has a flower shape and generally extends in the x-y plane. The first mold portion 1310 includes an indentation formation portion 1312. The indentation formation portion 1312 is an annulus that extends in the z direction and defines a circular opening 1319b. Other implementations are possible. For example, the indentation formation portion 1312 may have a shape that is not circular such as a heptagon or a polygon.
The first mold portion 1310 also has an outer perimeter 1326 that lies in the x-y plane and a plurality of petal-shaped portions 1359 that extend radially outward from the indentation formation portion 1312. For simplicity, only one of the petal-shaped portions 1359 is labeled in
Referring also to
The moldable material 102 is placed in a first side 1313 of the first mold portion 1310. The moldable material 102 is pressed against the indentation formation portion 1312 and the cutting edge 1323. The cutting edge 1323 passes through the moldable material 102, thereby separating the moldable material 102 and forming the flower-shaped segment 1308. Pressing the moldable material 102 into the first mold portion 1310 also causes an indentation 1305 to form on a side 1304 of the segment 1308. The side 1304 is the side that faces the first mold portion 1310. The indentation formation portion 1312 does not pass through the segment 1308. The segment 1308 does not separate at the indentation 1305.
The segment 1308 is removed from the first mold portion 1310. For example, the segment 1308 may be removed from the first mold portion 1310 by pushing the segment 1308 through one or more of the openings 1319a and/or the opening 1319b. The flower-shaped segment 1308 includes a central region 1308x that is surrounded by the indentation 1305. The flower-shaped segment 1308 also includes petal regions 1308a-1308g that extend radially outward from the central region 1308x. Each petal region 1308a-1308g has a respective edge 1309a-1309g. The flower-shaped segment 1308 is a single piece of the moldable material 102.
To form the toy 1350, the user folds the segment 1308 at the indentation 1305 such that the petal regions 1308a-1308g extend about a support object 1353. The segment 1308 is folded such that a region 1352 that is on the side of the moldable material 102 opposite to the side 1304 (which is the side with the indentation 1305) is on the exterior of the toy 1350. The region 1352 does not have a visible indentation or fold line. The edges 1309a-1309g of any two adjacent ones of the petal regions 1308a-1308g may touch each other after the petal regions 1308a-1308g are folded onto the support object 1353.
Furthermore, other implementations and variations are within the scope of the present disclosure. For example, pressing the moldable material 102 into any of the first mold portions discussed above may include pressing the first mold portion into the moldable material. Moreover, the any of the second mold portions may include indentation formation portions in addition to or instead of design projections. Additionally, the moldable material 102 may be pressed into the design projections and/or other elements of any of the second mold portions discussed above. Although the example toy sets discussed above include a first mold portion or a first mold portion and a second mold portion, a toy set may include more than two mold portions. For example, a toy set may include three, four, or any number of mold portions. In some implementations, a toy set includes more than one mold portion that includes design projections, and each of the more than one mold portion includes a design projection with a different visual appearance such that the user may apply a variety of design projections to a foldable segment of moldable material.
This application claims the benefit of U.S. Provisional Application No. 62/851,592, filed on May 22, 2019 and titled MOLDABLE MATERIAL TOY BUILDER, which is incorporated herein by reference in its entirety.
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