KR102263276B1 - Method and sclpture for manufacturing sclpture using 3d printer - Google Patents

Abstract

A sculpture using a three-dimensional printer is a support plate in contact with the ground, extending from the support plate in a direction perpendicular to the ground, a main support disposed in the center of the sculpture, and a sub extending from the main support to a direction crossing the extension direction of the main support It is connected to the support and the sub support, and includes a modeling block that is fastened to each other to form an outer shape of the sculpture.

Description

Method for manufacturing a sculpture using a three-dimensional printer and a sculpture using the same {METHOD AND SCLPTURE FOR MANUFACTURING SCLPTURE USING 3D PRINTER}

The present invention relates to a method for manufacturing a sculpture using a three-dimensional printer and a sculpture using the same, and more particularly, to a method for manufacturing a sculpture using a three-dimensional printer capable of effectively manufacturing a large-scale object, and a sculpture using the same.

A three-dimensional printer is a device that outputs a three-dimensional image made by using a design and design program in a three-dimensional shape using a member capable of firing. In the past, it was mainly used in engineering, engineering industries, etc., but recently, interest in using a 3D printer and various fields is increasing. For example, the scope of its use is broadly expanding from modeling to production of practically applicable parts in film, animation, bio, and other manufacturing fields.

Various models or sculptures are being produced using these three-dimensional printers. In the case of a small model, it is possible to manufacture it by simply printing it out using a 3D printer. However, in the case of producing a large sculpture, there are many difficulties due to the limitation of the size or capacity of the printer, and there is a problem in that the cost is increased because the size of the sculpture is large and the amount of material required is large.

Korean Patent Publication No. 10-1765688 (2017.08.08)

Accordingly, the technical problem of the present invention was conceived in this respect, and an object of the present invention is to provide a method for manufacturing a sculpture using a three-dimensional printer capable of effectively manufacturing a large-scale sculpture.

In addition, another object of the present invention is to provide a sculpture using a method for manufacturing a sculpture using a three-dimensional printer that can effectively produce a large sculpture.

A sculpture using a three-dimensional printer according to an embodiment for realizing the object of the present invention is a support plate in contact with the ground, extending in a direction perpendicular to the ground from the support plate, a main support portion disposed in the center of the sculpture, the main support portion and a sub support extending in a direction crossing the extending direction of the main support from the sub support and a modeling block connected to the sub support and fastened to each other to form an outer shape of the sculpture.

In one embodiment of the present invention, the modeling block includes a plurality of sub modeling blocks having fastening grooves formed on the side surface, and the sculpture using the 3D printer is partially inserted into the fastening groove to connect the sub modeling blocks. It may further include a fastening member.

In one embodiment of the present invention, the modeling block includes a plurality of sub modeling blocks, and the sub modeling blocks are formed in a shape protruding from one side of the sub modeling block. It is formed in a shape recessed into the other side, and may include a female coupling part into which the male coupling part is inserted.

A method of manufacturing a sculpture using a three-dimensional printer according to an embodiment for realizing the object of the present invention includes the steps of scanning the appearance of the object to be produced, dividing the appearance of the object into a plurality of parts, and using a three-dimensional printer to produce a plurality of modeling blocks having a predetermined thickness corresponding to the plurality of parts, the main having a height lower than the height of the sculpture, disposed on a support plate in contact with the ground, and extending in a direction perpendicular to the ground It includes the steps of forming a support part, manufacturing a sub support part extending from the main support part to support the building blocks, attaching the building blocks to the sub support part, and fastening the building blocks to each other.

In one embodiment of the present invention, the modeling block includes a plurality of sub modeling blocks having fastening grooves formed on the side surface, and the sculpture using the 3D printer is partially inserted into the fastening groove to connect the sub modeling blocks. It may further include a fastening member.

In one embodiment of the present invention, the modeling block includes a plurality of sub modeling blocks, and the sub modeling blocks are formed in a shape protruding from one side of the sub modeling block. It is formed in a shape recessed into the other side, and may include a female coupling part into which the male coupling part is inserted.

In one embodiment of the present invention, the step of manufacturing a sub support portion extending from the main support portion to support the modeling blocks includes calculating a distance between the main support portion and the modeling block and the main support portion and the modeling block. It may include calculating the arrangement position of the sub support arranged between the blocks.

In one embodiment of the present invention, calculating the arrangement position of the sub support disposed between the main support and the building block includes calculating the weight of the building blocks and a building block that the sub support can support. The method may include calculating the number of the sub-supports and determining an arrangement position of the sub-supports so that the sub-supports are connected to a modeling block disposed below among the modeling blocks fastened to each other.

According to embodiments of the present invention, a sculpture using a three-dimensional printer is formed by forming a support part therein, and fastening a modeling block having a predetermined thickness to the support part to form a sculpture. Accordingly, since the inside of the large sculpture does not need to be output by the three-dimensional printer, the output cost of the three-dimensional printer may be reduced, and thus the production cost of the sculpture may be reduced, and the production time of the sculpture may be shortened.

In addition, by arranging the minimum number of sub-supports in the process of manufacturing the support, the cost of manufacturing the support can be reduced while firmly supporting the sculpture, thereby reducing the cost of manufacturing the sculpture.

1 is a view showing a sculpture using a three-dimensional printer according to an embodiment of the present invention.
FIG. 2 is a perspective view illustrating a fastening state of a modeling block of a sculpture using a three-dimensional printer according to an embodiment of the present invention.
3 is a perspective view illustrating a fastening state of a modeling block of a sculpture using a three-dimensional printer according to an embodiment of the present invention.
4 is a flowchart illustrating a method of manufacturing a sculpture using a three-dimensional printer according to an embodiment of the present invention.
5 is a flowchart illustrating a method of manufacturing a sub support of a method of manufacturing a sculpture using a three-dimensional printer in an embodiment of the present invention.
6 is a flowchart illustrating a method of manufacturing a sub support of a method of manufacturing a sculpture using a three-dimensional printer in an embodiment of the present invention.

Since the present invention may have various changes and may have various forms, embodiments will be described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing each figure, like reference numerals have been used for like elements. Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms.

The above terms are used only for the purpose of distinguishing one component from another. The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

In this application, terms such as "comprises" or "consisting of" are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification is present, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a view showing a sculpture using a three-dimensional printer according to an embodiment of the present invention.

Referring to FIG. 1 , a sculpture using a three-dimensional printer according to an embodiment of the present invention may include a support unit 200 and a modeling block 100 .

The modeling block 100 may be fastened to a support portion to form an external shape of the sculpture. The modeling block 100 may be formed to a predetermined thickness, and may be fastened to each other to form an outer shape of the sculpture. The thickness of the modeling block 100 may be appropriately set and manufactured according to the size and shape of the object.

The modeling block 100 may be a unit block obtained by dividing the outer shape of the object to be produced into a plurality of parts. The number of the modeling blocks 100 may be appropriately changed according to the size and shape of the object to be produced.

The modeling block 100 scans the exterior of the object to be manufactured, and the thickness and the number of the modeling blocks 100 may be appropriately designed according to the size and shape of the object.

The modeling block 100 may include a plurality of sub modeling blocks. The structure of the sub modeling blocks will be described in detail with reference to FIGS. 2 and 3 .

When the building block 100 forms an outer shape, the inside may be formed as an empty space. The support part 100 may be disposed in the empty space inside. Accordingly, when a large-scale sculpture is manufactured using a three-dimensional printer, the output cost of the three-dimensional printer required to manufacture the sculpture can be reduced because the internal space is emptied and the molding block having a predetermined thickness is formed.

The support part 200 may be disposed inside the building block 100 . The support part 200 may include a support plate 210 , a main support part 220 , and a sub support part 230 .

The support plate 210 may be disposed to be in contact with the ground. The size of the support plate 210 may be appropriately changed according to the size of the object to be manufactured so as to support the main support part 220 and the sub support part 230 .

The main support part 220 may be disposed on the support plate 210 . The main support part 220 extends from the support plate 210 in a direction perpendicular to the ground, and may be disposed in the center of the sculpture.

1 shows, for example, that only one main support part is formed, but a plurality of main support parts 220 may be formed depending on the shape of the sculpture.

The sub support 230 may extend from the main support 220 in a direction crossing the extending direction of the main support 220 . The arrangement position and number of the sub supporter 230 may be changed according to the shape of the sculpture. The sub support 230 may be coupled to the building block 100 . The sub supporter 230 may be formed in a minimum number capable of supporting the building block 100 . For example, the position and number of sub-supporters 230 disposed may be determined according to the weight of the sub-modeling blocks connected to each other and the shape of the sub-modeling blocks. Depending on the shape of the sculpture, the distance from the main support 220 to the modeling block 100 may be formed differently. Accordingly, the length of the sub support part 230 may be the same as the distance from the main support part 220 to the modeling block 100 at the location where it is arranged, and according to the length of the sub support part 230, The arrangement position of the sub supporter 230 is determined so that the sub supporter 230 can be arranged in a minimum number in consideration of the weight of the modeling blocks that can be supported by the sub supporter 230 .

The support 200 may be formed of a solid material that can support the sculpture. For example, the support 200 may be formed of a metal or plastic material. However, the present invention is not limited thereto, and may be changed to various materials capable of supporting the weight of the sculpture.

The coupling between the support plate 210 and the main support part 220 and between the main support part 220 and the sub support part 230 may be joined by welding in the case of a metal material, and an adhesive or the like in the case of a plastic material. can be used for bonding. However, the present invention is not limited thereto, and various means capable of firmly coupling between the support plate 210 , the main support part 220 and the sub support part 230 may be used.

In addition, an adhesive or the like may be used for bonding between the main support part 220 and the sub support part 230 and the building block 100 .

At this time, in order to facilitate the coupling between the main support part 220 and the sub support part 230 and the building block 100, a coupling groove (not shown) is formed in the building block, and the main support part 230 is formed in the coupling groove. The support part 220 and the sub support part 230 may be inserted and coupled. Accordingly, the coupling between the main support part 220 and the sub support part 230 and the building block 100 can be easily and firmly coupled.

Figure 2 is a perspective view showing a fastening state of the modeling block of the sculpture using the three-dimensional printer according to an embodiment of the present invention.

Referring to FIG. 2 , a sculpture using a three-dimensional printer according to an embodiment of the present invention may include a modeling block 100 . The building block 100 may include a first sub modeling block 110 and a second sub modeling block 120 .

The first sub modeling block 110 and the second sub modeling block 120 may be coupled to each other to constitute the modeling block 100 . The modeling block 100 may be composed of a combination of a plurality of sub modeling blocks, and the sub modeling blocks may be fastened to each other to form an outer shape of the sculpture.

The first sub-shaping block 110 may include a fastening groove 115 formed in a shape recessed in a side surface. In FIG. 2 , the fastening groove 115 is illustrated as being formed only on one side of the first sub-building block 110 , but this is the case between the first sub-building block 110 and the second sub-building block 120 . This is for explaining the fastening state, and the fastening grooves 115 may be formed on four sides of the first sub-modeling block 110 if necessary. In addition, two or more fastening grooves 115 may be formed on one side if necessary.

In addition, the second sub-shaping block 120 may include a fastening groove 125 formed in a shape recessed in the side surface. In FIG. 2 , the fastening groove 125 is shown to be formed only on one side of the second sub modeling block 120 , but this is the case between the first sub modeling block 110 and the second sub modeling block 120 . This is for explaining the fastening state, and the fastening grooves 125 may be formed on four sides of the second sub-building block 120 if necessary. In addition, two or more fastening grooves 125 may be formed on one side if necessary.

A fastening member 130 may be inserted into the fastening grooves 115 and 125 . The fastening member 130 may be partially inserted into the fastening grooves 115 and 125 disposed to face each other to connect the first sub building block 110 and the second sub building block 120 . The fastening member 130 may be formed in the same shape as the space formed when the fastening grooves 115 and 125 are in contact. For example, when the fastening groove 115 and the fastening groove 125 have the same rectangular parallelepiped shape, the fastening member 130 has the same horizontal length and height as the fastening grooves 115 and 125 and has the same vertical length. It can have a double cuboid shape.

3 is a perspective view illustrating a fastening state of a modeling block of a sculpture using a three-dimensional printer according to an embodiment of the present invention.

Referring to FIG. 3 , a sculpture using a three-dimensional printer according to an embodiment of the present invention may include a modeling block 100 . The building block 100 may include a first sub modeling block 110 and a second sub modeling block 120 .

The first sub modeling block 110 and the second sub modeling block 120 may be coupled to each other to constitute the modeling block 100 . The modeling block 100 may be composed of a combination of a plurality of sub modeling blocks, and the sub modeling blocks may be fastened to each other to form an outer shape of the sculpture.

The first sub-building block 110 may include a male fastening part 113 formed in a shape protruding from one side thereof. In FIG. 2 , the male fastening part 113 is illustrated as being formed only on one side of the first sub modeling block 110 , but this is the first sub modeling block 110 and the second sub modeling block 120 . This is for explaining the fastening state of the , and the male fastening part 113 may be formed on the other side of the first sub-modeling block 110 as needed. In addition, if necessary, two or more male coupling parts 113 may be formed on one side. A portion 113 may be formed.

In addition, the second sub-shaping block 120 may include an arm coupling part 125 formed in a recessed shape on one side surface. In FIG. 2 , the arm coupling part 125 is shown to be formed only on one side of the second sub-building block 120 , but this is the first sub-building block 110 and the second sub-building block 120 . This is for explaining the fastening state of the , and the arm fastening part 125 may be formed on the other side of the second sub-modeling block 120 if necessary. In addition, two or more female coupling parts 125 may be formed on one side if necessary.

In addition, both the male coupling part 113 and the female coupling part 125 may be formed in one sub-modeling block. That is, a male coupling part 113 may be formed on one side of the first sub-modeling block 110 , and a female coupling part may be formed on the other side thereof. The male fastening part 113 formed on one side of the first sub building block 110 is inserted into the female fastening part formed on the other sub building block, and the male fastening part formed on one side of the other sub building block is the first sub building block. It may be inserted into an arm coupling part formed on the other side of the building block 110 .

4 is a flowchart illustrating a method of manufacturing a sculpture using a three-dimensional printer according to an embodiment of the present invention. 5 is a flowchart illustrating a method of manufacturing a sub-support of a method of manufacturing a sculpture using a three-dimensional printer in an embodiment of the present invention. 6 is a flowchart illustrating a sub-support manufacturing method of a sculpture manufacturing method using a three-dimensional printer in an embodiment of the present invention.

4 to 6, the method for manufacturing a sculpture using a three-dimensional printer according to an embodiment of the present invention includes the steps of scanning the appearance of the object to be produced (S100), dividing the appearance of the sculpture into a plurality of parts, A step (S200) of manufacturing a plurality of modeling blocks having a predetermined thickness corresponding to the plurality of parts by using a three-dimensional printer (S200), having a height lower than the height of the sculpture, disposed on a support plate in contact with the ground, and on the ground Forming a main support extending in a vertical direction (S300), extending from the main support, manufacturing a sub support for supporting the building blocks (S400), and attaching the building blocks to the sub support, It may include a step (S500) of fastening the building blocks to each other.

In the step of scanning the outer shape of the sculpture to be produced (S100), the shape and size of the sculpture are identified by scanning the object to be produced. Then, in the step (S200) of dividing the outer shape of the sculpture into a plurality of parts, and manufacturing a plurality of modeling blocks having a predetermined thickness corresponding to the plurality of parts using a three-dimensional printer (S200), the shape and size of the sculpture to be produced Accordingly, the appearance of the sculpture can be divided into a plurality of parts. The number of divided parts may be appropriately changed according to the shape and size of the sculpture.

When the number of divided parts is determined, the external appearance of the sculpture is formed into divided modeling blocks according to the predetermined number. The thickness of the modeling block may be appropriately determined according to the shape and size of the object to be manufactured. In the modeling block, a plurality of sub-modeling blocks are fastened to each other to form a single modeling block, which may form the external shape of the object to be manufactured. Accordingly, since the modeling block having a predetermined thickness forms the outer shape of the sculpture when manufacturing the sculpture, the amount of the sculpture output to the three-dimensional printer may be reduced, thereby reducing the manufacturing cost of the sculpture.

In the step (S300) of forming a main support having a lower height than the height of the sculpture, disposed on a support plate in contact with the ground, and extending in a direction perpendicular to the ground (S300), the main support 220 is formed on the support plate 210. do. The main support unit 220 has a lower height than the sculpture to be manufactured, and may serve to support the sculpture as a whole at the center.

In step S400 of manufacturing a sub support extending from the main support to support the building blocks, a sub support 230 connected to the main support may be manufactured.

The sub support 230 may extend from the main support 220 in a direction crossing the extending direction of the main support 220 . The arrangement position and number of the sub supporter 230 may be changed according to the shape of the sculpture. The sub support 230 may be coupled to the building block 100 . The sub supporter 230 may be formed in a minimum number capable of supporting the building block 100 . For example, the position and number of sub-supporters 230 disposed may be determined according to the weight of the sub-modeling blocks connected to each other and the shape of the sub-modeling blocks.

Depending on the shape of the sculpture, the distance from the main support 220 to the modeling block 100 may be formed differently. Accordingly, the length of the sub support part 230 may be the same as the distance from the main support part 220 to the modeling block 100 at the location where it is arranged, and according to the length of the sub support part 230, The arrangement position of the sub supporter 230 is determined so that the sub supporter 230 can be arranged in a minimum number in consideration of the weight of the modeling blocks that can be supported by the sub supporter 230 .

To this end, the step (S400) of manufacturing a sub support part extending from the main support part to support the building blocks includes calculating the distance between the main support part and the building block (S410) and the main support part and the building block. It may include a step (S420) of calculating the arrangement position of the sub support disposed therebetween.

The step of calculating the arrangement position of the sub support disposed between the main support and the building block (S420) includes calculating the weight of the building blocks (S421) and the number of building blocks that the sub support can support. The method may include calculating and determining an arrangement position of the sub support so that the sub support is connected to a modeling block disposed below among the modeling blocks fastened to each other ( S422 ).

That is, the number of the sub-supporting parts 230 to be arranged may be determined according to the weight of the sub-shaping blocks that can be supported. For example, when one sub-supporting part 230 can support the weight of two sub-building blocks, the sub-supporting part 230 is a sub-building block disposed below among the two sub-building blocks fastened in the vertical direction. can be coupled to

Since the minimum number of the sub support parts 230 is formed according to the weight capable of supporting the sub modeling blocks, the cost of manufacturing the support parts 200 can be reduced.

Although described above with reference to the embodiments, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention described in the claims below. You will understand that there is

100: modeling block
110: first sub-shaping block
113: male joint
115: first fastening groove
130: fastening member
120: second sub-shaping block
125: second fastening groove, arm fastening part
200: support
210: support plate
220: main support
230: sub support

Claims (8)

delete delete delete scanning the appearance of the sculpture to be produced;
dividing the outer shape of the sculpture into a plurality of parts, and manufacturing a plurality of modeling blocks having a predetermined thickness corresponding to the plurality of parts using a three-dimensional printer;
Forming a main support having a height lower than the height of the sculpture, disposed on a support plate in contact with the ground, and extending in a direction perpendicular to the ground;
manufacturing a sub support part extending from the main support part to support the building blocks; and
Attaching the building blocks to the sub support and fastening the building blocks to each other,
The step of manufacturing a sub support extending from the main support to support the building blocks includes,
calculating a distance between the main support and the building block; and
Comprising the step of calculating the arrangement position of the sub support disposed between the main support and the modeling block,
Calculating the arrangement position of the sub support disposed between the main support and the modeling block comprises:
calculating the weights of the building blocks; and
counting the number of modeling blocks that the sub support can support, and determining an arrangement position of the sub support so that the sub support is connected to a modeling block disposed below among the modeling blocks fastened to each other A method of manufacturing a sculpture using a printer.
The method according to claim 4, wherein the modeling block includes a plurality of sub-modeling blocks having fastening grooves formed on the side thereof
The method of manufacturing a sculpture using a three-dimensional printer further comprising a fastening member partially inserted into the fastening groove to connect the sub-modeling blocks.
The method of claim 4, wherein the modeling block includes a plurality of sub-modeling blocks,
The sub-modeling blocks are
a male fastening part formed in a shape protruding from one side of the sub-building block; and
A method of manufacturing a sculpture using a three-dimensional printer including a female fastening part which is formed in a shape recessed in the other side of the sub-modeling block and into which the male fastening part is inserted.

















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