Yoshimoto Cube

myminifactory

The Yoshimoto Cube is an eight-sided mechanical puzzle toy invented by Japanese inventor Naoki Yoshimoto in 1971. This cube consists of interconnected cubes that can fold and unfold themselves cyclically, allowing the user to repeat this process indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons. Yoshimoto discovered that these two shapes could be joined together to form a square while experimenting with different ways to divide a cube equally in half. UPDATE: The Yoshimoto Cube has been featured on Makezine as of June 13, 2010. The article highlights the potential for 3D printing this component, suggesting that it could be cast using a printable mold and assembled using hinges made from a specific type of tape. Two different molds have been designed - an open part mold and a 4-part mold. A user on Makezine suggested designing a printable mold for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The article also mentions that the user would need to find the right type of tape to use as hinges. The Yoshimoto Cube is a complex mechanical puzzle toy consisting of eight interconnected cubes. It can be folded and unfolded indefinitely, with each fold transforming it into two rhombic stellated dodecahedrons. These shapes can then be joined together to form a square. This cube was first discovered by Naoki Yoshimoto in 1971. The user found the cube on Makezine yesterday and expressed their desire to build one. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. The Yoshimoto Cube is a mechanical puzzle toy consisting of eight interconnected cubes that can fold and unfold indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. A user on Makezine suggested designing a printable mold for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The Yoshimoto Cube is an eight-sided mechanical puzzle toy invented by Japanese inventor Naoki Yoshimoto in 1971. This cube consists of interconnected cubes that can fold and unfold themselves cyclically, allowing the user to repeat this process indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. A printable mold has been designed for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The user suggested that a special type of tape should be used as hinges. Two different molds have been designed - an open part mold and a 4-part mold. The Yoshimoto Cube is a complex mechanical puzzle toy consisting of eight interconnected cubes. It can be folded and unfolded indefinitely, with each fold transforming it into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. A user on Makezine suggested designing a printable mold for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The Yoshimoto Cube is an eight-sided mechanical puzzle toy invented by Japanese inventor Naoki Yoshimoto in 1971. This cube consists of interconnected cubes that can fold and unfold themselves cyclically, allowing the user to repeat this process indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. A printable mold has been designed for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The user suggested that a special type of tape should be used as hinges. Two different molds have been designed - an open part mold and a 4-part mold. A user on Makezine suggested designing a printable mold for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The Yoshimoto Cube is an eight-sided mechanical puzzle toy invented by Japanese inventor Naoki Yoshimotoin 1971. This cube consists of interconnected cubes that can fold and unfold themselves cyclically, allowing the user to repeat this process indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos. A printable mold has been designed for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The user suggested that a special type of tape should be used as hinges. Two different molds have been designed - an open part mold and a 4-part mold. A user on Makezine suggested designing a printable mold for this component, allowing users to print the mold and cast the necessary units needed to create the cube. The required units are sixteen in total. The Yoshimoto Cube is a complex mechanical puzzle toy consisting of eight interconnected cubes that can fold and unfold indefinitely. Once folded, the cube transforms into two rhombic stellated dodecahedrons that can be joined together to form a square. Yoshimoto discovered this shape while experimenting with different ways to divide a cube equally in half. The user found the cube on Makezine yesterday and was impressed by its complexity. However, they were deterred by its high price of $65.00. The user then spent two hours modeling the entire assembly using SolidWorks. They provided a link to more information on how to assemble the model, including instructions on how to use tape to hold it together. A user on Instructables suggested adding an active hinge for easy assembly. The user is currently building their Mendel printer and will not be able to print this model for several weeks. However, they are eager to see it working in action. They encouraged others who plan to build the cube to share their progress by posting pictures and videos.