KR20160024149A - Manufacturing Method For Jewellery Material With Gradation Of Color And, Jewellery Material Thereby - Google Patents

Abstract

The present invention relates to a method to manufacture a jewelry material with a gradation color wherein a plurality of colors are in harmony and one color changes from an other color. The method comprises: (S110) a mold preparing step of preparing a mold (210) disposed to be erect wherein an input (211) is formed on an upper portion, a molding space (212) is provided, and a heating means (220) disposed on an outer circumference thereof; (S130) a bulk material insertion step of inserting a plurality of bulk materials (10a, 10b) having colors different from each other, to the molding space (212) in a mutually laminated form through the inlet (211), wherein a volume occupied by the bulk material (10a) disposed on a lower portion gradually gets lower from a lower portion to an upper portion in the molding space (212), and the volume occupied by the bulk material (10b) relatively disposed on the upper portion gradually getting larger; and (S150) the bulk material heating and coagulating step of heating an outer peripheral face of the mold (210) from a downside to an upside using the heating means (220) to sequentially and locally melt the bulk materials (10a, 10b) from the lower end to the upper end and then be coagulated in one direction.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a jewelery material of a gradient color,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a jewelery material of gradation color and a jewelery material manufactured thereby, and more particularly, to a method of manufacturing a jewelery material of a gradient color having a gradation color of continuously changing or gradually changing from one color to another, A method of manufacturing a jewelery material of a gradient color, and a jewelry material manufactured thereby.

The global jewelery market is worth about 175 trillion won a year, and demand for pure gold for jewelery is over 2,000 tons. Considering about 2% of the world market size, Korean jewelery market size is about 3.5 trillion won and the demand of pure gold is about 36 tons.

Generally, gold alloy for jewelry is mostly monochromatic products such as yellow gold, white gold and red gold, and recently, due to the monotony of the color of these monochromatic products, there is a great demand for combination products of a plurality of monochromatic products .

In the currently available combination products, a monochromatic gold alloy having a single color is used as a base, while a decorating band is adhered with a different color gold alloy or a specific pattern is used. However, The manufactured product is not robust and there is a limit to the production of the image to be expressed. In addition, there is a problem that the foreign matter accumulates in the gap of the joint portion and is discolored or unsanitary.

Patent Document No. 2014-0072342 (Apr. 14, 2014), a method for producing a composition for discoloring a copper-gold alloy, a composition for discoloring a copper-gold alloy produced by the method, a method for producing a paulownia product using the same,

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a method of manufacturing a bulk material, which comprises a step of laminating a plurality of bulk materials having different colors in a mold space of a mold, Is gradually dissolved from the lower end portion to the upper end portion one by one and solidified in one direction so as to produce a jewelery material having gradation colors in which the colors are combined and continuously or gradually changed in one color to another color, A method for manufacturing a material, and a jewelery material manufactured through the method.

According to another aspect of the present invention, there is provided a method of manufacturing a jewelery material having gradation colors in which a plurality of colors are combined to continuously or gradually change from one color to another, A mold preparing step S110 for preparing a mold 210 in which a mold space 212 is provided inside and a heating unit 220 is disposed around the mold 210; Wherein a plurality of bulk materials (10a, 10b) having different colors are inserted into the mold space (212), wherein the plurality of bulk materials (10a, 10b) in a unit volume according to each position in the mold space (212) A bulk material inserting step (S130) of inserting each of the bulk materials (10a, 10b) so that the proportion of the bulk material (10a, 10b) is continuously changed; And the bulk material (10a, 10b) are sequentially melted locally and unidirectionally solidified by successively heating the outer peripheral surface of the mold (210) while relatively moving the heating means (220) And a solidifying step (S150).

In the step of inserting the bulk material (S130), the cross-sectional area of the bulk material (10a, 10b) increases from the lower part to the upper part in the mold space (212) according to the shape and gradation ratio of the jewelry material The respective bulk materials 10a and 10b can be stacked up and down so that the unit volume of the bulk materials 10a and 10b continuously changes.

The bulk material heating and solidifying step S150 may be performed by heating the bulk materials 10a and 10b while moving the heating means 220 while the mold 210 is fixedly disposed, The bulk material 10a or 10b is heated while the mold 210 is moved while the mold 210 is fixedly disposed at a position around the outer periphery of the mold 210 or the heating means 220 and the mold 210 are moved together The bulk materials 10a and 10b can be heated locally by successively heating the bulk materials 10a and 10b.

According to another aspect of the present invention, there is provided a jewelery material having gradation colors that change continuously or progressively from one color to another, A hollow shape in which a hollow is formed in the hollow portion, or a shape in which the cross section is formed in a shape of a circle, an ellipse, a triangle, a square, or a polygon, A convex shape protruding in a longitudinal direction, a concave shape in which a specific portion is recessed inwardly in an elongated longitudinal direction, or a wave type that is bent a plurality of times along an elongated longitudinal direction As shown in FIG.

According to the method for manufacturing a jewelery material of gradation color according to the present invention,

First, a plurality of bulk materials 10a and 10b having different colors are stacked in the mold space 212 of the mold 210 and heated by the heating means 220 disposed on the outer periphery of the mold 210, Since the material 10 is locally dissolved sequentially from the lower end portion to the upper end portion and then solidified in one direction, it is possible to manufacture a jewelry material having a gradation color in which each color is changed from one color to another, Can meet the demand for the combination product.

Second, when compared with the conventional combination products in which the respective gold alloys are bonded, since they have an integral product form without a bonding site, they can maintain the same level of solidity as monochromatic products, Can be solved. In addition, a gradation image of various colors and patterns can be produced according to the type and color of the bulk materials 10a and 10b inserted into the mold 210 or the ratio of the respective bulk materials 10a and 10b to be inserted.

Third, a hollow forming part 213 arranged upright in the mold space 212 of the mold 210 may be formed, or various types of molds 210 may be used to form various shapes of jewelery such as a hollow material, a rod, The material 30 can be manufactured. If necessary, the mechanical property of the material 30 can be improved through forging or rolling, and the material 30 can be machined using a lathe or the like to produce a precise jewelery product.

1 is a flowchart showing a procedure of a method of manufacturing a jewelry material according to a preferred embodiment of the present invention,
FIG. 2 is a side view for explaining a mold preparing step according to a preferred embodiment of the present invention;
FIG. 3 is a side view for explaining a bulk material inserting step according to a preferred embodiment of the present invention;
4 is a plan view showing various shapes of a mold and a bulk material according to a preferred embodiment of the present invention,
5 is a side view for explaining a bulk material heating and solidifying step according to a preferred embodiment of the present invention;
FIG. 6 is a side view showing a state in which a bulk material having two colors according to a preferred embodiment of the present invention is laminated,
FIG. 7 is a side view showing a state in which a bulk material having three colors according to a preferred embodiment of the present invention is laminated,
8 is a side view showing a state in which a hollow forming part is arranged upright at a central position of a mold according to a preferred embodiment of the present invention,
9 is a plan view showing various shapes of a hollow forming part according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

A method of manufacturing a jewelery material of gradation color according to a preferred embodiment of the present invention includes stacking a plurality of bulk materials 10a and 10b having different colors in a mold space 212 of a mold 210 up and down, The bulk materials 10a and 10b are locally dissolved sequentially from the lower end portion to the upper end portion by the heating means 220 disposed on the outer periphery of the upper and lower portions of the upper and lower substrates 10 and 10 and then unidirectionally solidified to be gradually changed from one color to another 1. A method of manufacturing a jewelry material capable of producing a jewelery material 30 having a gradation color of a shape of a gradient color, comprising the steps of preparing a mold (S110), a bulk material inserting step (S130) and a bulk material heating and solidifying step (S150).

First, the mold preparing step S110 is a step of preparing a mold 210 for providing a space for heating the bulk material 10 to be formed into the jewelery material 30, And a mold 210 having a mold cavity 212 and a heating means 220 disposed around the mold cavity 210 are formed on the upper portion.

As the mold 210, a graphite mold made of a graphite material can be used. As the heating means 220, it is possible to precisely control the heating temperature according to driving power applied from the outside And can be used as the heating means 220 if the heating device can easily control the heating temperature in the technical field to which the present invention belongs.

In addition, although the shape of the mold 210 is shown as a straight line extending upward, it is not limited thereto, and may have an angled or wave-like shape in an extending direction as needed.

The bulk material inserting step S 130 is a step of inserting the bulk material 10 serving as a material of the jewelry material 30 into the mold 210. As shown in FIG. 3, The respective bulk materials 10a and 10b are inserted such that the proportion of the plurality of bulk materials 10a and 10b in a unit volume continuously changes according to each position in the bulk material 10a and 10b.

The volume of each bulk material 10a and 10b is continuously changed from the lower part to the upper part in the mold space 212 according to the shape and gradation ratio of the jewelery material 30 to be manufactured. It is preferable that the materials 10a and 10b are stacked one above the other.

More specifically, a plurality of bulk materials 10a and 10b having different colors are inserted into the mold space 212 of the mold 210 in a stacked manner through the injection port 211, The volume occupied by the bulk material 10a disposed at the lower portion gradually decreases from the lower portion to the upper portion within the chamber 212 so that the volume occupied by the bulk material 10b disposed at the upper portion gradually increases Each of the bulk materials 10a and 10b is inserted.

As the bulk material 10, gold alloy, white gold, red gold, or the like, which is widely used, may be used. In addition, iron alloy, nonferrous iron or alloy thereof may be melted and mixed with each other The material can be used as the bulk material 10. The bulk material 10 can be made more uniform in texture by using a solid monochromatic material (ingot) obtained by preliminary casting or preliminary sintering.

4, the shape of the horizontal cross section may be a circular shape, a square shape, a rectangle shape, or a hexagonal shape. The shape of the bulk material inserted into the mold space 212 10 can be changed, it is possible to provide a condition for manufacturing a jewelery material 30 having various shapes such as a bar, a plate, and a sheet material. That is, the jewelery material 30 manufactured through the method of manufacturing a jewelry material according to the preferred embodiment of the present invention may have a circular shape, an elliptical shape, a triangular shape, a square shape or a polygonal shape And the like), and the like.

The jewelery material 30, which is manufactured by using a mold 210 having a specific portion protruding outwardly and convexly in an extended longitudinal direction, is formed into a convex shape in which a specific portion is protruded outwardly in a longitudinal direction, , Or a jewelery material (30) produced by using a mold (210) in which a specific region is recessed inwardly in an elongated longitudinal direction, is formed in a concave shape in which a specific portion is recessed inwardly in the longitudinal direction Concave Type).

Further, the jewelry material 30 manufactured by using the mold 210 having the shape of being bent a plurality of times along the elongated longitudinal direction may be manufactured as a wave type which is bent a plurality of times in the longitudinal direction extending in the longitudinal direction .

In addition, two bulk materials 10a and 10b may be inserted into the mold space 212 of the mold 210 as shown in FIG. 3, and three or more bulk materials 10a , 10b, 10c may be inserted at the same time.

At this time, three or more bulk materials 10a, 10b, and 10c having different colors are sequentially stacked in the mold space 212 through the injection port 211 of the mold 210, The volume of the bulk material 10b at the center where the materials 10a and 10c are placed on the upper side and the lower side gradually increases in volume occupying the lower part of the mold space 212 from the lower part to the upper part. It is preferable to insert it so as to be in the shape of

The bulk material heating and solidifying step S150 is a step of heating and solidifying the bulk materials 10a and 10b inserted into the mold 210 using the heating means 220 disposed around the periphery of the mold 210 As shown in FIG. 5, as the heating means 220 and the mold are moved relative to each other, the bulk materials 10a and 10b are sequentially heated as the outer peripheral surfaces of the molds 210 are sequentially heated, Allows one-way solidification after local melting.

5, when heating the bulk material 10a and 10b by the heating means 220, the heating means 220 is moved to the position of the mold 210 in a state where the mold 210 is fixedly disposed, The bulk materials 10a and 10b can be heated while moving from the lower side to the upper side.

The heating means 220 may be fixed to the outer periphery of the mold 210 while moving the mold 210 while moving the bulk material 10a or 10b while heating the bulk materials 10a and 10b. And heating the bulk materials 10a and 10b while moving the heating means 220 and the mold 210 together as long as the present invention can sequentially dissolve and coagulate the desired local materials, The bulk materials 10a and 10b may be sequentially dissolved locally.

The moving speed of the heating means 220 or the mold 210 is slowly moved by several millimeters per minute in consideration of the insertion amount of the bulk materials 10a and 10b disposed in the mold space 212, 220) is sufficiently melted.

When the heating means 220 is driven to heat the bulk materials 10a and 10b from the lower end, the bulk material portion at the position where the heating means 220 is disposed is locally melted and the droplet The position of the liquid phase layer 20 in the bulk material 10 gradually changes as the heating means 220 or the mold 210 moves relative to each other .

In this case, the respective bulk materials 10a and 10b are dissolved and mixed with each other in the liquid phase layer 20 at each position so that the liquid phase layer 20 has a ratio of the volumes of the respective bulk materials 10a and 10b As the liquid phase layer 20 moves, the existing liquid phase layer 20 is cooled and unidirectionally solidified to maintain the mixed color of the bulk materials 10a and 10b.

Here, the method of manufacturing a jewelery material according to a preferred embodiment of the present invention is a method of manufacturing a jewelery material by moving the heating means 220 upward or moving the template 210 downward, thereby locally increasing the position of the liquid phase layer 20 Since casting is carried out with a uniform highway directionality, casting defects such as surface pores and cold shut are not generated at all, and therefore, it is possible to provide an effect that no machining for removing surface defects or the like is unnecessary.

In addition, when the respective bulk materials 10a and 10b are locally dissolved, foreign substances such as internal inclusions contained in the bulk materials 10a and 10b and oxides due to oxidation of the additives form a slag layer on the upper portion of the liquid phase layer 20 This slag layer is raised together with the upward movement of the liquid phase layer 20, so that it is possible to prevent impurities from being mixed into the manufactured jewelery material 30.

When the liquid layer 20 is moved from the lower end portion to the upper end portion of the bulk materials 10a and 10b according to this continuous procedure, as shown in FIGS. 6 and 7, It is possible to manufacture the jewelery material 30 having a gradation color of changing shape.

Further, by controlling the moving speed of the heating means 220 or the mold 210 or by changing the heating temperature by the heating means 220 in the bulk material heating and solidifying step S150, the thickness of the liquid layer 20 And thus it is possible to provide more various gradation images.

Meanwhile, the method of manufacturing a jewelry material according to a preferred embodiment of the present invention can manufacture a jewelry material 30 having shapes such as a bar, a plate, and a billet using a mold 210 and a bulk material 10 having various shapes The jewelery material 30 may be manufactured in the shape of a hollow material having a through hole formed therein.

A method of manufacturing a jewelry material according to a preferred embodiment of the present invention includes the steps of using a mold 210 having various shapes and a bulk material 10 to form a jewelry material 30 having a hollow shape filled with an inner material such as a bar, But also the jewelery material 30 may be manufactured in a hollow shape in which a hollow is formed therein.

More specifically, as shown in FIG. 8, in the mold preparing step S110, a mold 210 having a hollow forming part 213 disposed upright at a central position of the mold space 212 is prepared .

Here, the hollow forming part 213 may be made of the same material as the mold 210, such as a graphite material, and may have various shapes such as a rectangle, a square or a rectangle, a polygon, etc., as shown in FIG. . Although the shapes of the molds 210 are the same as the shapes of the molds 210, the shapes of the hollows 213 may be different from each other regardless of the shapes of the molds 210, You can also choose.

A plurality of bulk materials 10a and 10b having different colors are arranged in the mold space 212 of the mold 210 up and down in accordance with the respective steps of the method for manufacturing a jewelry material according to the preferred embodiment of the present invention as described above The bulk materials 10 are sequentially melted locally from the lower end portion to the upper end portion by the heating means 220 disposed on the outer periphery of the mold 210 and then solidified in one direction so that the respective colors are mixed, It is possible to manufacture a jewelery material having a gradation color that changes in color, so that the demand for a combination product having gradations of various patterns can be met.

In comparison with the conventional combination products in which the respective gold alloys are bonded, since they have an integrated product form without a bonding site, they can maintain the same level of solidity as monochromatic products, Can be solved. In addition, a gradation image of various colors and patterns can be produced according to the type and color of the bulk materials 10a and 10b inserted into the mold 210 or the ratio of the respective bulk materials 10a and 10b to be inserted.

In addition, by forming the hollow forming part 213 arranged upright at the central position of the mold space 212 of the mold 210 or using various types of the mold 210, various kinds of materials such as a hollow material, a bar material, It is possible to produce a precise jewelery product by improving the mechanical properties of the jewelery material 30 by forging or rolling as necessary and machining it by using a lathe or the like, Since the partial dissolving method using the heat dissipating unit 220 is used, it is possible to realize the advantage that the normal energy consumption of the material manufacturing is small.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10, 10a, 10b, 10c ... bulk material 20 ... liquid phase
30 ... Jewelery material 210 ... Mold
211 ... inlet 212 ... mold space
213 ... hollow forming part 220 ... heating means
S110 ... mold preparing step S130 ... bulk material inserting step
S150 ... bulk material heating and solidification step

Claims (4)

1. A method of manufacturing a jewelry material having a gradation color of a shape in which a plurality of colors are combined to continuously or gradually change from one color to another,
(S110) for preparing a mold (210) having a mold space (212) inside and a heating unit (220) disposed around the mold (212);
Wherein a plurality of bulk materials (10a, 10b) having different colors are inserted into the mold space (212), wherein the plurality of bulk materials (10a, 10b) in a unit volume according to each position in the mold space (212) A bulk material inserting step (S130) of inserting each of the bulk materials (10a, 10b) so that the proportion of the bulk material (10a, 10b) is continuously changed; And
Bulk material heating (10a, 10b) is performed to successively heat the outer peripheral surface of the mold (210) while the heating means (220) and the mold are moved relative to each other, And a solidifying step (S150).
The method according to claim 1,
The bulk material inserting step (S130)
The volume of each bulk material 10a and 10b continuously changes from the lower part to the upper part in the mold space 212 according to the shape and gradation ratio of the jewelry material 30 to be manufactured. 10a, 10b are stacked one above the other.
3. The method of claim 2,
The bulk material heating and solidifying step (S150)
Heating the bulk materials 10a and 10b while moving the heating means 220 while the mold 210 is fixedly disposed,
Heating the bulk materials 10a and 10b while moving the mold 210 while the heating means 220 is fixedly disposed at a position around the outer periphery of the mold 210,
The bulk material (10a, 10b) is heated while moving the heating means (220) and the mold (210) together,
And the bulk materials (10a, 10b) are sequentially dissolved in a localized manner.
4. A method of manufacturing a jewelry material according to any one of claims 1 to 3, which has a gradation color which is continuously or progressively changed from one color to another,
A hollow shape filled with an inner portion, or a hollow shape having an inner hollow formed along an elongated longitudinal direction,
The shape of the cross section may be formed in a shape of a circle, an ellipse, a triangle, a square, or a polygon,
A convex type in which a specific portion protrudes outwardly convexly in an extended longitudinal direction, a concave type in which a specific portion is recessed inwardly in an elongated longitudinal direction, or a concave type in which a plurality of times of bending And a wave form formed in one of the two wave shapes,
Jewelry material.

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