KR100358620B1 - Manufacturing method of 3 dimensional gauze accessories using cad/cam - Google Patents

Abstract

The present invention relates to a three-dimensional three-dimensional mesh-shaped jewelry using a cad / cam and ornaments therefrom, in the shape of ornaments such as necklaces, earrings, overlap of the horizontal member 10 and the vertical member 11 It is characterized in that the space 12 is formed and the inside is composed of a solid three-dimensional mesh shape, its manufacturing method is a computer control system to create a three-dimensional design data to simulate and then complete the design Doing; And inputting the data into a rapid prototyping system, which is a cam device, to laminate the wax by a further spray printing method to form a wax prototype; And comparing / inspecting the raw data to complete the model; Melting the supporting material with the solvent to complete the final model; Putting the finished model into the mold (7) to pour the gypsum, and then hardening, giving heat to melt the model (1), and pouring metal through the injection hole (8) at the top to form a desired shape; And finally, cutting the injection hole (9) and finishing processing; It characterized in that the step of producing a frame made of a metal model made in the above step.

Description

MANUFACTURING METHOD OF 3 DIMENSIONAL GAUZE ACCESSORIES USING CAD / CAM}

The present invention relates to a method of manufacturing jewelry such as a three-dimensional solid mesh necklace, earrings, rings, bracelets using a cad / cam

In the prior art, the accessories produced by the mechanical work have a certain limit in producing the shape. For example, it was impossible to produce a three-dimensional shape such as a mesh-shaped spherical shape with holes.

For example, even if you make diarrhea by punching, forging, or by hand, you can make a half of three-dimensional shape and paste it, so you can freely make three-dimensional accessories such as three-dimensional mesh shape in one step. It was impossible to do.

In addition, in the conventional ornaments, it is possible to freely form a flat shape, for example, a flat mesh shape using a modeling equipment such as the existing NC, but it is difficult to create a three-dimensional shape, so in fact, three-dimensional sphere and the like The same mesh type could not be produced.

In addition, in the process of manufacturing the original, made of silver or gold in a handwork factory by designing by hand, and in the process of manufacturing and commercializing a rubber frame, in particular, the production cost is expensive because high labor costs are required due to the large amount of time and effort required during the original production. Inevitably, there is a limit in the precision, and it is difficult to maintain the spacing and thickness of certain lines, and thus, the production by hand was extremely limited.

In addition, conventionally, after designing and presenting, production, marketing, and promotion are carried out over a long period of time, so there is a disadvantage in that it takes a long time to commercialize and quickly release accessories that are sensitive to fashion.

The present invention has been invented in view of the above disadvantages, the present invention can be made at the same time marketing and presentation at the same time the design is made to enable rapid production, and also various attempts in the conventional precious metal jewelry system, but productivity and cost It is an object of the present invention to provide a method for producing a three-dimensional mesh of ornaments of a very complex structure, which has ended in failure.

In addition, the present invention can reduce the material consumption and weight of the product by using a CAD / CAM three-dimensional three-dimensional mesh shape that can not be manufactured by conventional hand, can produce a very beautiful three-dimensional three-dimensional mesh type with a continuous intersection of rich volume and delicate lines The purpose is to provide a way.

1 is a flow chart illustrating a method according to the invention.

2 is a view showing an operating relationship by the apparatus used in the present invention.

3 is a view showing a process of melting a wax model to create a metal circle in accordance with the present invention

Figure 4 is an illustration of a necklace made in accordance with the present invention

Main features of the present invention for achieving the above object, the step of creating a three-dimensional design data with a computer control system to simulate and then complete the design; And inputting the data into a rapid prototyping system, which is a cam device, to form a prototype by laminating wax by a further spray printing method; And comparing / inspecting the original data to complete the original; Melting the support material with the dissolved circular pattern to complete the final model; Putting the finished model into the mold (7) to pour the gypsum, and then hardening, melting and heating the model (1) made of wax and pouring metal through the injection hole (8) at the top to form a desired shape; And finally, cutting the injection hole (9) and finishing processing; It characterized in that the step of producing a frame made of a metal model made in the above step.

Hereinafter, other features and advantages of the present invention will be described in more detail.

In the present invention, after designing the shape of the jewelry using the CAD first, it is possible to directly create a three-dimensional model from the CAD data.

As illustrated in FIG. 1, for example, three-dimensional design data is generated by using a computer control system, especially JEWEL CAD, which is resistant to curve processing, and simulated to complete the design.

In other words, for example, the design data of Jewel CAD can be transferred to 3DMAX, a computer graphics program, to model in a virtual space.

For example, if you want to design a mesh-like three-dimensional decoration, create a three-dimensional intersecting line using the transform function around the base line.

In addition, the data is inputted to a high speed circular manufacturing apparatus (rapid prototyping system), which is a cam facility, and the wax lamination process is used to produce a wax model.

The original wax is then compared / inspected with the original data to finalize the product.

The high-speed circular manufacturing system is a three-dimensional prototype manufacturing apparatus that can create a three-dimensional prototype without regard to the complexity of the shape by using a three-dimensional design designed by CAD.

That is, the above-mentioned high speed circular manufacturing apparatus has various types, and depending on the type of the apparatus, a cross-sectional cross section is stacked up using a material such as photocurable resin, paper, wax, plastic, etc. to make a three-dimensional shape. This working principle is carried out in the CAD design, that is, by dividing the figure by slicing and laminating the cross-section.

The prototype fabrication system used here is, for example, a wax prototype (model) by laminating waxes by a spray printing method of three-dimensional stacking.

That is, as shown in Fig. 2, by using a dual inkjet system in a manner similar to an inkjet plotter by software and electronic control of the CAD-designed mock file, the thermoplastic wax (build wax) and the support material (Support Wax) is made by spraying in place. Here, the thermoplastic material is the shape of the model 1 to be made and the support material 2 is laminated only for the support of the model 1.

The model 1 and the support material 2 are installed on a pedestal 4 on the table 3 of the apparatus, the table and the model 1 thereon operating on the table up and down, i.e. in the Z axis, The spraying apparatus 5 for laminating the support material 2 and the model 1 by spraying ink in a droplet shape at a predetermined position is formed by stacking the models while operating left and right, ie, on the XY axis.

Here, reference numeral 6 denotes a surface grinder 6 which operates to smooth the surface of the model 1 when laminating the model 1.

That is, each floated plane is precisely scraped off to the thickness of the plane set by the grinding machine to complete one layer. At this time, the remaining residue is sucked with a vacuum cleaner.

Repeat the plotting and grinding process until the model prototype is completed.

The circular pattern thus created is dissolved in the support material (2) with a solvent (solvent) to complete the final prototype.

This system is a three-dimensional inkjet floating system. Unlike other mechanical or laser-based systems, this system not only achieves breakthrough precision by using the inkjet method, but also is ideally suited for applications that make complex, delicate, and precise three-dimensional shapes free. Is the system of

In addition, the original wax production system using a computer control system enables secondary verification and correction.

The program used for the device uses, for example, a jewelry cad manufactured by JEWELLERY CAD / CAM of Hong Kong, and the machine that executes the program is a US Sanders prototype (SPI: SANDERS PROTOTYPE INC). .) Use the manufacturer's model name Maker2.

The model made by the above process is made of metal through the casting process, and then made into a frame to make a mass production.

That is, briefly explaining the process of making the metal through the casting process, once the model (1) is completed by the above apparatus, as shown in Figure 3, put the model (1) in the frame (7) Pour the plaster and harden it, give heat to melt the model (1) made of wax and pour the metal through the injection hole (8) at the top to make the desired shape.

Then, the injection hole 9 is finally cut out and finished.

This process is similar to the casting process, so the detailed description is omitted.

The shape of the model 1 in FIG. 3, which is a drawing for explaining the above, is different from the shape of the model illustrated in FIG. 2 because both drawings are merely shapes of models for example.

4 is a view showing an example of use of the necklace product made by the present invention.

As shown in the drawing, it is possible to produce a mesh-shaped sphere shape that cannot be manufactured by conventional machine work. In this case, it is preferable that the horizontal member 10 and the vertical member 11 have a rectangular cross section of the member as much as possible.

The reason is that in the case of a quadrangular, the outermost part exposed to the exterior is flat, and the appearance is excellent, and the area where the horizontal member 10 and the vertical member 11 overlap with each other has a flat cross-sectional area without a step. Therefore, the step does not occur in the overlapped portion, which is advantageous for emitting surface light such as polishing on the outer surface, and also prevents grind by dirt or the like.

In addition, in the case of the decorative sphere produced by the conventional manual manufacturing, casting work, it is difficult to maintain a constant thickness and spacing of the horizontal member 10 and the vertical member 11, but in the machine operation using a computer according to the present invention There is a product that can maintain the thickness and thickness.

In addition, it creates a skeleton that can maintain the shape of the intersection of the continuous line and makes the visual aesthetics more outstanding through the rhombic space portion (3) formed by the horizontal member 10 and the vertical member (2).

In addition, for example, the space portion 12 of the rhombus shape can be connected to the chain or metal wire through the space portion 13 when used in necklaces or earrings, as shown in the drawing may serve as a chain link.

According to the present invention as described above, there is an advantage that can freely express the high-quality three-dimensional object of the mesh shape having a constant interval and a constant thickness when manufacturing the ornaments and the like.

In addition, the present invention has the advantage that a series of operations leading to design, design, manufacturing, and promotion in a short time in a very short time by the collective management of computer data.

In addition, according to the present invention, even in the case of a complicated structure pattern to fill the scratches and to give light to the entire surface, even in the overlapping areas due to the flat smooth outer surface there is no surface step difference, finishing finishing work is very convenient, surface polishing In addition, it is very advantageous and has the advantage that the finishing work can be completed in a very short period of time, and also the finished product has the advantage that the back is not rough and clean.

In addition, according to the present invention, it is very easy to make a three-dimensional form which is difficult or impossible to work by conventional NC machining or by hand into an extremely precise pattern, and can produce a unique design product which is distinguished from conventional manual work.

In addition, according to the present invention, while minimizing the weight of the precious metal material gold, platinum, giving the maximum sense of volume and space, there is a light advantage when worn.

In addition, the product produced by the present invention, for example, the lozenge-shaped space portion 12 provides a connection space for inserting the connection line of the necklace or earrings, between the metal wires due to the reflection of the metal wire therebetween It gives a sense of aesthetic as if the metal is embedded in it, and it is also convenient for use because it has good ventilation on the skin when wearing a mesh shape with a necklace etc.

In addition, as illustrated in FIG. 4, when a support 13 capable of fixing gems and the like is formed in some structures, the gorgeous aesthetics can be enhanced by setting the ornaments 14 of gemstones such as diamonds, rubies and sapphires. There is an advantage.

Claims (4)

delete delete In the method of manufacturing jewelry, such as a necklace and earrings, Creating a three-dimensional design data using a computer control system, simulating it, and then completing the design; Then, the model is made by inputting the data into a rapid prototyping system, which is a cam device, by laminating it with a spray printing method, which is further stacked with a spray device 5 by using a wax, which is a thermoplastic member, to make a wax model. ; And comparing and inspecting the original data to repeat the plotting and grinding process to complete the original wax model; Melting the support material (2) by using the created model (1) pattern as a solvent to complete a final model; Putting the finished model into the mold (7) to pour the gypsum, and then hardening, giving heat to melt the model (1), and pouring metal through the injection hole (8) at the top to form a desired shape; And finally, cutting the injection hole (9) and finishing processing; Method of manufacturing a three-dimensional solid mesh ornaments using a cad / cam characterized in that the step of producing a metal model made in the above step to form a frame delete