The present invention relates to a regular polyhedral ornament and a method for manufacturing a raw workpiece of single stone into the regular polyhedral ornament. More particularly, the invention relates to a regular polyhedral ornament and a method for easily manufacturing the ornament by utilizing the geometric features which determine the faces and ridges of a regular polyhedron such as a regular dodecahedron or a regular icosahedron to draw cutting base lines and auxiliary cutting lines by marking or the like, and by cutting the workpiece based thereon using a cutting tool.
A regular polyhedron is defined as a polyhedron all of whose faces are regular congruent polygons and all of whose vertices have the same number of edges (ridges) meeting together at each thereof. According to the Euler's polyhedron theorem, such a regular polyhedron can exist only in the following five types: a regular tetrahedron, a regular hexahedron, a regular octahedron, a regular dodecahedron, and a regular icosahedron. For example, to form a regular dodecahedron 01, as shown in
For a raw material of metal, the aforementioned shaping methods would make it possible to readily obtain a regular dodecahedron. However, for a raw material of stone, the milling cutter cannot be used for grinding the stone workpiece to be milled. With the shaping machine according to Japanese Patent Laid-Open Publication No. Hei 9-285923 mentioned above, it is almost impossible to chuck and shape with high accuracy a polyhedron having a complicated structure such as a regular dodecahedron or a regular icosahedron. Furthermore, a material of stone is not compatible with die casting. As such, it was difficult to manufacture ornaments, such as a memorial stone, an object, or a tomb stone, which are formed of a raw material of stone in the shape of a regular dodecahedron or a regular icosahedron. In this context, the applicant has devised the present invention in view of this problem. It is therefore an object (theme) of the invention to provide a method for easily manufacturing a regular polyhedron such as a regular dodecahedron or a regular icosahedron. It is another object of the invention to provide an ornament manufactured according to the method. In the method, a stone is pre-shaped into a cube in preparation for a raw workpiece, and on this cubic workpiece, cutting base lines are drawn which define faces and ridges obtained from the geometric features of a regular dodecahedron or a regular icosahedron. Auxiliary lines are drawn every time each face of the regular polyhedron is ground based on the cutting base lines, and then a next new face is cut based on the auxiliary lines and the cutting base lines. The regular polyhedron is thus manufactured, and an ornament manufactured according to the method is provided.
To solve the aforementioned problem, the present invention provides the following means. That is, the invention according to claim 1 provides a method for manufacturing a regular polyhedral ornament or a regular polyhedron such as a regular dodecahedron or a regular icosahedron. In the method, a stone is shaped into a cube in preparation for a raw workpiece, and then using a cutting tool, the cubic workpiece is cut into the regular polyhedron that is inscribed in the cube. The method is characterized in that the six external surfaces of the cube are marked with cutting base lines which define faces determined by the geometric features of the regular polyhedron and ridges forming contours of the faces. Then, first and second faces of the regular polyhedron which have the ridges in common are cut based on the cutting base lines and thereafter auxiliary cutting lines are marked by drawing on these faces. Further, a new third regular polyhedral face is cut based on the auxiliary cutting lines and the cutting base lines. Subsequently thereafter, the auxiliary cutting lines are drawn in sequence every time a new face of the regular polyhedron is cut from fourth to 12th or to 20th faces to thereby cut the cubic workpiece into the regular polyhedron.
With such an arrangement, the invention according to claim 1 makes it possible to easily manufacture a regular polyhedral ornament using a cutting tool. To this end, a stone is shaped into a cube in preparation for a raw workpiece, and then the six external surfaces of the cube are marked with cutting base lines which define faces determined by the geometric features of the regular polyhedron and ridges forming the contours of the faces. Then, first and second faces of the regular polyhedron are cut based on the cutting base lines and thereafter new auxiliary cutting lines are drawn on these faces. Further, a new third regular polyhedral face is cut based on the auxiliary cutting lines and the cutting base lines. Subsequently thereafter, the auxiliary cutting lines are marked by drawing in sequence every time a new face of the regular polyhedron is cut in the same procedure from fourth to 12th or to 20th faces to thereby cut the cubic workpiece into the regular polyhedron.
The invention according to claim 2 provides a method for manufacturing a regular polyhedral ornament or a regular polyhedron. In the method, a stone is shaped into a cube in preparation for a raw workpiece, and then using a cutting tool, the cubic workpiece is cut into a regular polyhedron that is inscribed in the cube. The method is characterized in that the six external surfaces of the cube are marked with cutting base lines which define faces obtained from the geometric features of the regular polyhedron and ridges forming the contours of the faces. Then, first and second possible cut faces which are envisaged in an inner space of the cube are cut using the cutting tool into first and second faces adjacent to each other based on the cutting base lines which commonly include any one of the ridges. Then, lines forming ridges of the regular polyhedron determined by intersections of the cutting base lines and the faces having been cut are marked by drawing as auxiliary cutting lines on both the first and second faces having been cut. With a new face envisaged in the inner space of the cube being defined as a third possible cut face based on these auxiliary cutting lines and the cutting base lines, the third possible cut face is cut using the cutting tool so as to be formed as a third face of the regular polyhedron. Every time a new face is created by cutting in sequence, the auxiliary cutting lines are drawn to form a possible cut face, thereby allowing the cubic workpiece to be cut into the regular polyhedral ornament.
According to the invention set forth in claim 2, a stone is shaped into a cube in preparation for a raw workpiece to be manufactured into a regular polyhedron which is inscribed in the cube. To this end, the six external surfaces of the cube are marked by drawing with cutting base lines which define faces obtained from the geometric features of the regular polyhedron and ridges forming the contours of the faces. Then, first and second faces adjacent to each other are cut based on the cutting base lines. Then, auxiliary cutting lines are drawn on these faces having been cut to form a new third face based on the auxiliary cutting lines and the cutting base lines. Every time a new face is created by cutting in sequence, the auxiliary cutting lines are drawn to form a new possible cut face. This makes it possible to easily cut a cubic workpiece into a regular polyhedral ornament without using a conventional, costly, computer-controlled shaping machine.
The invention according to claim 3 is related to the method of claim 2 for manufacturing a regular polyhedral ornament. In the method of claim 3, the regular polyhedron is a regular dodecahedron, which is assumed to have an edge of a length of two. In this case, on each surface of the cubic workpiece, plotted on each of the four perimeter edges or ridges are a midpoint and two division points located about the midpoint at a distance of (1+√5)/2 from each vertex. The invention is characterized in that the cutting base lines marked on each surface based on the geometric features include: a median line which connects between the midpoints on an edge and the opposite edge; two parallel lines which are orthogonal to the median line and which connect respectively between two division points located on the respective edges adjacent to the edge and the opposite edge; and four diagonal lines which are diagonal to the parallel lines and which respectively connect between each of the division points on the edge and the opposite edge and each of the midpoints on the respective adjacent edges.
According to the invention set forth in claim 3, the cutting base lines, indicative of the geometric features of a regular polyhedron, which are marked on each surface of the cubic workpiece include a median line, two parallel lines which are orthogonal to the median line, and four diagonal lines which are diagonal to the parallel lines at the four corners of each surface. Since these lines are straight, each surface can be marked easily. This makes it possible to easily cut the regular dodecahedron into an ornament using a cutting tool.
The invention according to claim 4 is related to the method of claim 2 for manufacturing a regular polyhedral ornament. In the method of claim 4, the regular polyhedron is a regular icosahedron, which is assumed to have an edge of a length of (1+√5). In this case, on each surface of the cubic workpiece, plotted on each of the four perimeter edges or ridges are a midpoint and two division points located about the midpoint at a distance of one from each vertex. The invention is characterized in that the cutting base lines marked on each surface based on the geometric features include: a median line which connects between midpoints on an edge and the opposite edge; two parallel lines which are orthogonal to the median line and which connect respectively between two division points located on the respective edges adjacent to the edge and the opposite edge; and four diagonal lines which are diagonal to the parallel lines and which respectively connect between each of the division points on the edge and the opposite edge and each of the midpoints on the respective adjacent edges.
According to the invention set forth in claim 4, the cutting base lines, indicative of the geometric features of a regular polyhedron, which are marked on each surface of the cubic workpiece include a median line, two parallel lines which are orthogonal to the median line, and four diagonal lines which are diagonal to the parallel lines at the four corners of each surface. Since these lines are straight, each surface can be marked easily. This makes it possible to easily cut the regular icosahedron into an ornament using a cutting tool.
The invention according to claim 5 provides an ornament, wherein the cubic workpiece of stone is shaped into a regular dodecahedron or a regular icosahedron according to the method for manufacturing a regular polyhedron set forth in claim 3 or 4.
According to the invention set forth in claim 5, the method for manufacturing a regular polyhedron can be used to easily shape a single cubic workpiece such as of stone, wood, or glass into an ornament which may be used as a memorial stone, an object, a tomb stone, a monument, or the like. This can be done through simple cutting work using only a cutting tool without a need for a costly, expensive machine or apparatus.
In each of the drawings, 1 denotes a cubic workpiece (a raw workpiece of stone); 2 denotes a regular dodecahedral ornament (a regular dodecahedron); 3 denotes a cubic workpiece; 4 denotes a regular icosahedral ornament (a regular icosahedron); 30, 40, 50, 60, 70, 80, 90, 100, 110, 120, 130, 140, 180, 190, 200, 210, 220, 230, 240, 250, 260, 270, 280, 290, 300, 310, 320, 330, 340, 350, 360, and 370 each denote a cutout portion; L1 denotes a median line; L2 and L3 denote parallel lines; L4 to L7 each denote a diagonal line; L10 denotes a median line; L11 and L12 denote parallel lines; L13 to L16 each denote a diagonal line; P denotes a midpoint; and Q denotes a division point.
Now, embodiments of the present invention will be described below in more detail with reference to
First, as a first embodiment, a description will be made to a method for manufacturing a regular polyhedral ornament in the shape of a regular dodecahedron. As shown in
That is, as shown in
As shown in
Now, referring to
Likewise, as shown in
Then, as shown in
Thus, subsequently in the same manner, until the 12th face of the regular dodecahedron is formed, the steps of drawing auxiliary cutting lines every time a new face is sequentially created by cutting to thereby envisage (form) a new possible cut face and then cutting the possible cut face will be repeated. That is, a cutout portion 60 shown in
Now, as a second embodiment of the present invention, a description will be made to a method for manufacturing a regular polyhedral ornament in the shape of a regular icosahedron into. As shown in
That is, as shown in
As shown in
Now, referring to
That is, in
As shown in
In this manner, the regular icosahedral ornament 4 according to the second embodiment is completely manufactured, and then the faces thereof may be polished using appropriate polishing means to thereby completely manufacture an ornament such as a memorial stone, a tomb stone, a decorative item, or an object.
In both the aforementioned first and second embodiments, the regular dodecahedral ornament 2 and the regular icosahedral ornament 4 are manufactured in this manner. To this end, the surfaces of the cubic workpieces 1 and 3 prepared at the beginning are drawn by marking or the like with cutting base lines indicative of the geometric features of each regular polyhedron, and then each cubic workpiece is cut based thereon. Even when the cutting causes the aforementioned cutting base lines to be erased, auxiliary cutting lines are drawn on a newly exposed surface to supplement the erased cutting base lines and thus define a possible cut face, which is in turn cut. This procedure is repeated, thereby making it possible to easily manufacture the cubic workpieces 1 and 3 of single stone into the ornaments 2 and 4.
Although the embodiments of the present invention have been described in detail with reference to the drawings, it is to be understood that specific structures are not limited to these embodiments, and any modifications to design made without departing from the sprit of the present invention would be also included in the scope of the present invention.
That is, the descriptions have been made to the stone used in the aforementioned first and second embodiments which is a natural stone. However, the present invention is also applicable to the manufacturing of an ornament of a raw material such as wood or glass.
Furthermore, in the foregoing, the descriptions were made to the case where a grinding wheel used as a cutting tool was rotated for cutting. However, instead of it, a laser beam can also be used for cutting.
As described above, according to the invention set forth in claim 1, a stone is shaped into a cube in preparation for a raw workpiece. The six external surfaces of the cube are marked with cutting base lines which define faces determined by the geometric features of the regular polyhedron and ridges forming the contours of the faces. Then, first and second faces of the regular polyhedron are cut based on the cutting base lines and thereafter new auxiliary cutting lines are drawn on these faces. Further, a new third regular polyhedral face is cut based on the auxiliary cutting lines and the cutting base lines. Subsequently thereafter, the auxiliary cutting lines are marked by drawing in sequence every time a new face of the regular polyhedron is cut in the same procedure from fourth to 12th or to 20th faces, thereby allowing the cubic workpiece to be cut into the regular polyhedron while the cutting base lines which are erased after each cutting are being complemented by the auxiliary cutting lines. This makes it possible to easily manufacture a regular polyhedral ornament using a cutting tool.
Furthermore, according to the invention set forth in claim 2, a stone is shaped into a cube in preparation for a raw workpiece to be manufactured into a regular polyhedron which is inscribed in the cube. To this end, the six external surfaces of the cube are marked by drawing with cutting base lines which define faces obtained from the geometric features of the regular polyhedron and ridges forming the contours of the faces. Then, first and second faces adjacent to each other are cut based on the cutting base lines. Then, auxiliary cutting lines are drawn on these faces having been cut to form a new third face based on the auxiliary cutting lines and the cutting base lines. Every time a new face is created by cutting in sequence, the auxiliary cutting lines are drawn to form a new possible cut face. In this manner, the cutting base lines indicative of the geometric features of the regular polyhedron being erased after each cutting will be complemented by new auxiliary cutting lines being marked by drawing. This makes it possible to easily cut a possible cut face defined by cutting base lines and auxiliary cutting lines without using a conventional, costly computer-controlled shaping machine. It is thus possible to easily cut the cubic workpiece into a regular polyhedral ornament.
Furthermore, according to the invention set forth in claim 3, the cutting base lines, indicative of the geometric features of a regular polyhedron, which are marked on each surface of the cubic workpiece include a median line, two parallel lines which are orthogonal to the median line, and four diagonal lines which are diagonal to the parallel lines at the four corners of each surface. Since these lines are straight, each surface can be marked easily. This makes it possible to easily cut the regular dodecahedron into an ornament using a cutting tool in accordance with the straight lines that are marked based on the geometric features thereof.
Furthermore, according to the invention set forth in claim 4, the cutting base lines, indicative of the geometric features of a regular polyhedron, which are marked on each surface of the cubic workpiece include a median line, two parallel lines which are orthogonal to the median line, and four diagonal lines which are diagonal to the parallel lines at the four corners of each surface. Since these lines are straight, each surface can be marked easily. This makes it possible to easily cut the regular icosahedron into an ornament using a cutting tool.
Furthermore, according to the invention set forth in claim 5, the method for manufacturing a regular polyhedron can be used to easily shape a single cubic workpiece, for example, such as of natural stone, wood, or glass into an ornament which may be used as a memorial stone, an object, a tomb stone, a monument or the like. This can be done through simple cutting work using only a cutting tool without a need for a costly, extensive machine or apparatus.
Number | Date | Country | Kind |
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2003-112613 | Apr 2003 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2004/005442 | 4/16/2004 | WO | 00 | 9/30/2005 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/091880 | 10/28/2004 | WO | A |
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Number | Date | Country | |
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20060204774 A1 | Sep 2006 | US |