KR20110083768A - Manufacturing method of accessory using scanner and cad/cam - Google Patents

Abstract

PURPOSE: An accessory manufacturing method is provided to produce an accessory having a specific shape that a consumer wants at a low cost. CONSTITUTION: An accessory manufacturing method comprises: a step(S100) of scanning an image having the shape of an accessory from an imitation object; a step(S200) of collecting date about the design of the scanned image by using CAD; and a step(S300) of manufacturing an accessory by processing a material for the accessory according to the design date by using CAM.

Description

Manufacturing method of accessory using scanner and CAD / CAM}

The present invention relates to a method for manufacturing jewelry, and more particularly, jewelry that can manufacture the shape or shape of the jewelry according to the shape or shape desired by the consumer using a scanner and Computer Aided Design / Computer Aided Manufacturing (CAD / CAM). It relates to a manufacturing method.

In the conventional case, metal ornaments such as necklaces and earrings are designed by a producer or a designer by hand, and a casting method is used in which a mold is formed to form a shape, a raw material is dissolved, then poured into a mold and then removed from the mold to finally form a desired shape. Plastic ornaments were produced primarily by injection molding.

However, the above-mentioned conventional casting method and injection method has advantages in mass production for general consumers, but it takes a long time to manufacture one or a small amount of jewelry in a specific shape, and also because the cost of manufacturing one jewelry is high. There is a problem that it is difficult to respond to the needs of consumers who want a specific shape or their own shape.

In addition, the conventional casting method may change the properties and shape of the material metal due to the rapid temperature change due to high temperature and cooling during casting, and there is a limitation in making a casting mold precisely, so the jewelry produced by the conventional casting method is sophisticated There was also a problem in that there was a limit.

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and an object thereof is to provide a method for manufacturing jewelry having a specific shape and shape desired by a consumer in a short time and at low cost.

It is also an object of the present invention to provide a method for manufacturing jewelry having a fine shape.

In order to achieve the above object, the present invention, scanning the image of the shape or shape of the jewelry to be manufactured by using a scanner, converting the scanned image into a design data using CAD, and the CAM by the design data The present invention provides a method for manufacturing jewelry using a scanner and a cad / cam, which includes manufacturing the jewelry by machining the material for the jewelry with the apparatus.

According to the method of manufacturing jewelry using the scanner and the CAD / CAM of the present invention has the following effects.

First, by using the scanner to quickly scan the image of the shape or shape of the jewelry to be manufactured by designing the scanned image using the CAD design data, and then by using the CAM device to quickly and low-cost machining materials for jewelry to produce jewelry By manufacturing, jewelry having a specific shape and shape desired by the consumer can be manufactured in a shorter period of time and at a lower cost than a conventional manufacturing method by casting.

Second, the CAM device capable of precision processing by the automatic control of the computer has the effect that can be manufactured more sophisticated jewelry than the conventional manufacturing method by manufacturing jewelry by machining the material for jewelry.

1 is a flow chart illustrating a method for manufacturing jewelry using a scanner and a cad / cam according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

As shown in FIG. 1, a method of manufacturing jewelry using a scanner and a cad / cam is performed through the following steps.

Scanning an image of the shape or shape of the jewelry to be manufactured using a scanner (S100), the step of converting the scanned image into design data using CAD (S200), and for the jewelry to the CAM device by the design data It comprises a step (S300) of manufacturing the ornament by machining the material.

Step S100 is a step of acquiring an image of a shape or a shape to be manufactured by jewelry by scanning an image from an object to be imitated by using a 3D scanner or a 2D scanner. By using the scanning function of the 3D scanner or the 2D scanner, it is possible to easily obtain an image of a unique shape or shape desired by the consumer from the object.

In other words, if a consumer with a child wants to make the shape of the baby's hand or foot in the shape of a baby as jewelry, and scans the baby's hand or foot with a 3D scanner, the data of the baby's hand or foot can be simply retrieved. Even if the lovers want to make and keep the shape of their hands, feet, or faces as jewelry, they can scan the shape with a 3D scanner and simply obtain the data of the shape. If there is a picture of the building or animal shape that you want to make and keep, you can easily acquire the data of the building or animal shape by scanning the picture using a 2D scanner.

Here, the 3D scanner is a device for acquiring three-dimensional shape data of the object by irradiating an object to be scanned with light such as a laser and reflecting the reflected light. For the implementation of the present invention, for example, a model manufactured by ZCoporation Company The model SteroSCAN manufactured by ZScanner 700 or Breukmann can be used.

The 2D scanner is a device for scanning photographs, documents, and the like with two-dimensional data, and a general office 2D scanner can be used for the practice of the present invention.

In step S200, the shape image data of the object scanned in step S100 is converted into design data using CAD.

Here, the CAD user cleans, modifies, and supplements the image data of the object shape scanned in step S100 to implement a more precise shape than the image of the scanned shape. The implemented shape is then presented to a computer and presented to a consumer, etc., to complete the design necessary for the manufacture of the jewelry through modification and supplementation if there is a correction or supplement, and also to be used in the next step based on the design. Complete digitized design data on CAD.

The CAD used in this step may be a commercially available CAD program for design, for example, a solid edge program produced by Simens PLM Softwaret.

In step S300, after the design data completed in S200 is input to the CAM device, jewelry is manufactured by machining the CAM device by the input design data.

Here, the CAM device is a machine that can automatically process a certain shape under the control of the computer based on the input data in a form that can be processed by a computer. For example, the model name manufactured by Eshim Tech Co., Ltd. Laser engraving & A cutting machine can be used as the CAM device at this stage.

And the material for the jewelry used in this step may be a pure metal and alloy such as gold, platinum, silver, and also, the material that can be machined to manufacture jewelry, such as stone, wood, plastic Can be used without.

And the jewelry material used in this step can be supplied in the form of a block of a predetermined size in advance in the size required for the production of jewelry in order to reduce the convenience and processing amount of processing. In other words, the use of jewelry material blocks larger than the size required for the production of jewelry causes a problem that the processing time is longer than that of the appropriate size of the material block, and the amount of the material of the processed part that is discarded increases. In order to predict the size of the ornaments to be prepared in advance to prepare a material block for ornaments of the appropriate size to use.

According to the method of manufacturing jewelry using the scanner and the CAD / CAM according to the present invention as described above, in the case of the manufacturing method of the conventional casting using a scanner instead of the time-consuming and complicated design by the producer or designer used by hand It is composed of the steps of quickly acquiring the required shape image and then completing the design data quickly and efficiently using CAD, and also forming the frame after the completion of the design required by the conventional casting method. Since it is not necessary to make the jewelry, there is an effect that can be manufactured in a shorter time, lower cost than the conventional production method by casting.

In addition, the method of manufacturing jewelry using the scanner and the CAD / CAM according to the present invention, as described above, is low in the cost of manufacturing a single jewelry, and the manufacturing period is short, and thus responds to the demand of consumers who want a specific shape or their own shape. It also has the effect of being easy to do.

In addition, the machining process using the CAM device is precise, and since the material is insignificant change during the machining process, because of the characteristics of the jewelry can be more sophisticated than the casting casting process according to the present invention manufacturing method of jewelry using the scanner and CAD / CAM According to the present invention there is an effect that can be manufactured more sophisticated jewelry than the conventional manufacturing method by casting.

Claims (1)

Scanning an image of a shape or shape of jewelry to be manufactured using a scanner from an imitation object (S100), converting the scanned image into design data using CAD (S200), and the CAM device by the design data The method of manufacturing jewelry using a scanner and a CAD / cam comprising a step (S300) for manufacturing the jewelry by machining the material for jewelry.

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