KR101972323B1 - Manufacturing method of ornaments filled with nano ceramics - Google Patents

Abstract

The preset invention relates to a method of manufacturing an ornament, and more specifically, to a method of manufacturing an ornament filled with nano ceramics, in which materials, such as iron, aluminum, and stainless steel that are at a lower cost compared to precious metals, are used and plated with rhodium, silver, gold, platinum, etc., and an outer side of the ornament is filled with multi-colored nano ceramics. Accordingly, various colors can be expressed in the ornament, it is possible to prevent a portion filled with the ceramics from damage, discoloration, and corrosion, thereby maximizing durability, and it is also possible to manufacture the ornament that has a beautiful and luxurious appearance at a relatively low cost. To this end, according to one embodiment of the present invention, the method of manufacturing an ornament filled with nano ceramics comprises: a plating step of plating an ornament; a first washing step of washing the ornament that has been plated; a groove processing step of processing a groove along an outer circumference of the ornament that has been firstly washed; a nano ceramic filling step of filling the ornament that has the processed groove with nano ceramics; a first dry step of drying the ornament filled with the nano ceramics at the temperature of 50°C for 15-30 minutes; a second washing step of washing the dried ornament with a washing agent; a heat processing step of heating the secondarily washed ornament at the temperature of 150°C for more than 30 minutes to bake the ornament; and an inspection and shipment step of inspecting and shipping the ornament that has been secondarily dried.

Description

{Manufacturing method of ornaments filled with nano ceramics}

The present invention relates to a method of manufacturing ornaments and, more particularly, to a method of manufacturing ornaments using rhodium, silver, gold, platinum and the like using a low-cost material as compared with noble metals such as iron or aluminum stainless steel, And various colors can be expressed in ornaments. The filled ceramic part prevents damages, discoloration and corrosion, thereby maximizing the durability and at the same time, it can be manufactured in a luxurious ornamental appearance with a relatively low cost. The present invention relates to a method for manufacturing ornaments filled with nanoceramics and a jewelry using the same.

Generally, the ornaments that people use to decorate themselves are made in various forms such as necklaces, earrings, rings, and bracelets.

These ornaments are mainly made of various materials such as natural stone and precious metal. As the price of precious metal increases, the ornaments are sold at a high price, which is a burden to purchase.

Accordingly, there is an increasing tendency to purchase precious metals made of low-cost materials such as aluminum or stainless steel, and it is possible to manufacture jewelry that is sufficiently beautiful even with such low-cost materials, The demand for ornaments using silver or gold plating is also increasing to make them look like precious metals.

However, in the case of the plating ornaments, the plating may peel off during use, discoloration, and corrosion may occur, which makes it difficult to use the plating for a long period of time.

In connection with the prior art document 1 (Japanese Patent Application No. 10-0947904), a structure is disclosed in which an ornament is put in a plating tank, electroplated, and then coated with a taniban.

However, it is possible to deposit only one material such as gold or platinum, which causes a limitation in expressing in various colors.

Prior Art 1 (Manufacturing method of metal ornaments of registered patent 10-0947904)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems described above, and it is an object of the present invention to provide a method of manufacturing a metal plate by plating an ornamental material in a plating step, washing the metal plate, washing the metal plate, After drying, it is precisely cleaned once again after drying, and it is dried at a high temperature to completely cure the nanoceramics, inspection, inspection and manufacture, and it is possible to manufacture various colors through nanoceramics applicable in various colors, It is an object of the present invention to provide a method of manufacturing ornaments filled with nanoceramics which can be worn without damaging the ceramic with high hardness even when worn for a long period of time and which can be used for a long time while preventing deterioration, .

In order to solve the above-mentioned problems, a method for manufacturing a nano-ceramic-filled ornaments according to an embodiment of the present invention includes a plating step S10 for plating an ornamental material 100, A groove processing step S30 for machining a groove along the outer periphery of the first accessory 100 after the first cleaning process is completed; A first drying step S50 of drying the ornaments 100 filled with the nanoceramics 200 at a temperature of 50 DEG C for 15 to 30 minutes, a step of drying the ornaments 100 100) is washed with a cleaning agent (S60); a heat treatment step (S70) in which the second washed ornaments 100 are heated at 150 DEG C for 30 minutes or more; And an inspection and dispensing step (S80) for inspecting and dispensing finished ornaments completed up to the secondary drying.

Here, the plating step (S10) includes a cleaning step (S11) for removing foreign matter adhering to the outside before plating the ornaments (100), an electrolysis step (S11) for electrolyzing the washed ornaments (100) A degreasing step S12, a washing step of washing the ornaments with water, a pickling step S14 of immersing and removing light foreign substances, rust and scales by immersing the jewelry 100 in an oxidizing acidic solvent, Is performed.

In the grooving step S30, when the grooves are machined to a certain depth along the outer circumference of the ornaments in processing the grooves in the ornaments 100, the grooves are machined so as to be widened from the outer side to the inner side, (200) is not separated after curing.

The present invention also relates to an ornamental body manufactured by any one of the above methods.

The method of manufacturing ornaments filled with nanoceramics according to one embodiment of the present invention and the ornaments using the same have the following effects.

First, using nanoceramics that can be expressed in various colors, it is possible to produce various color ornaments.

Second, the durability is increased according to the hardness of the nanoceramics, and there is an effect that it can be used for a long period of time without damaging discoloration and corrosion.

Third, it can be produced with a small cost and a nice effect, which can contribute to the sales increase and the sales increase.

FIG. 1 is an overall process diagram of a method for manufacturing a nano-ceramic-filled jewelry according to an embodiment of the present invention.
FIG. 2 is a process chart showing a plating step of a method for manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention
FIG. 3 is a process chart showing a first cleaning step of a method for manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention
FIG. 4 is a cross-sectional view showing in detail the shape of the groove processed by the groove processing step in the method of manufacturing the ornaments filled with nanoceramics according to an embodiment of the present invention
FIG. 5 is a cross-sectional view illustrating the structure of a filling tank used for filling nano ceramics in ornaments in a method of manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention
FIG. 6 is a cross-sectional view illustrating a state in which a nanoceramics is filled through a filling jig in a filling tank used for filling nano ceramics in ornaments in the method of manufacturing an ornamental filled with nanoceramics according to an embodiment of the present invention
FIG. 7 is a perspective view illustrating an ornamental body manufactured by a method of manufacturing a nano-ceramic-filled jewelry according to an embodiment of the present invention;

The present invention relates to a method of manufacturing an ornamental article filled with nanoceramics, in particular, in the case of filling nano ceramics in ornaments, it is possible to fill the grooves for filling nanoceramics by plating the ornaments and sufficiently fill the grooves with nanoceramics In addition, when the nano ceramics are densely packed by the action of passing the ornaments into the filling jig, the nanoceramics are densely packed into the grooves through various stages, and after curing for a certain time, the nano ceramics The present invention relates to a method for manufacturing ornaments filled with nanoceramics, which can be separated and cured at a high temperature after removing foreign substances in a washing step and a drying step while keeping the powder from being lost, and an ornament using the same.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method for manufacturing ornaments filled with nano ceramics according to an embodiment of the present invention and ornaments using the same will be described in detail with reference to the accompanying drawings.

1 is an overall process diagram of a method of manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention.

Referring to FIG. 1, the present invention relates to a method of cleaning a jewelry ornament 100 that has been plated in the plating step S10, comprising the steps of: plating rhodium, silver or gold on a ring- A groove machining step S30 for machining a groove filled with the nanoceramic material 200 along the outer periphery of the first accessory 100 and the groove machining step S30, A nano-ceramic filling step S40 for filling the nano-ceramic 200 in the groove processed in the nano-ceramic 200, and a primary drying step for drying the ornaments 100 filled with the nanoceramic 200 at a temperature of 50 DEG C for 15 to 30 minutes (S60) for precisely wiping the first ornamental accessory 100 using a cleaning agent such as alcohol, TCE, acetone or the like on a cotton swab or cotton cloth according to the shape of the product, A heat treatment step (S70) of bending the washed ornaments (100) at 150 DEG C for 30 minutes or more in the car washing step (S60) And inspecting the finished ornaments 100 and shipping only good goods (S80).

As a result, it is possible to express colors such as gold and platinum gold by filling and heat-treating various colors of ceramics with a metal such as aluminum stainless steel, which is inexpensive compared to a noble metal, and to increase durability and to use for a long period of time.

FIG. 2 is a process diagram illustrating a plating step of a method of manufacturing a nano-ceramic filled jewelry according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the plating step S10 includes a cleaning step S11 for removing impurities adhering to the outside before plating the ornamental material 100, and a cleaning step S11 for removing impurities from the surface of the ornaments 100, An electrolytic degreasing step S12 for removing residual oil, a water washing step S13 for washing the ornamental accessories 100 with water and an ornamental 100 in an acidic solvent having oxidizing power to remove light foreign matter, rust, And a pickling step (S14) for dissolving and removing the scales is performed, followed by plating.

As a result, it is possible to maximize the quality of the plating while preventing the foreign matter from being wrongly plated or deteriorating the quality of the product.

FIG. 3 is a process diagram illustrating a first cleaning step of a method for manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention.

Referring to FIG. 3, the first cleaning step S20 includes a cleaning step S21 for removing foreign substances remaining on the outside of the ornamental accessory 100 and a cleaning step S21 for cleaning the ornamental material 100 through the cleaning step S21. An electrolytic degreasing step S22 for separating the oil remaining on the surface by electrolytic action, a first water washing step S23 for cleaning the degreased accessory 100 with water, a first water washing step S23 A pickling step S24 for removing light foreign substances, rust, and scales by immersing the ornamental material 100 in which the foreign substance is removed through an oxidizing agent in an acidic solvent, and a remaining acidic solvent remaining in the pickling step S24 with water And a second water washing step (S25).

Thus, it is possible to effectively remove foreign substances that may remain even after plating, thereby maintaining a high quality.

FIG. 4 is a cross-sectional view illustrating in detail a shape of a groove processed by a groove processing step in a method of manufacturing a nano-ceramic filled jewelry according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of a nanoceramic according to an embodiment of the present invention. Sectional view showing in detail the structure of a filling tank used when filling nano ceramics in ornaments in the method of manufacturing filled ornaments.

4 and 5, the grooving step S30 includes filling the nanoceramic 200 along the perimeter of the ornament 100 to fill the plated ornaments 100 with the nanoceramics 200 A groove is machined with a width to fill the nano-ceramic 200 along the circumference of the ornament 100 with a polishing machine having a polishing means having a width narrower than the width of the ornamental 100, A polishing groove is used to form an inclined surface that widens from the outer circumference to the inner circumferential direction of the ornament 100, and the filling grooves 110 are formed so as to be wider from the outer side to the inner side as viewed in cross section.

As the inside of the filling groove 110 processed as described above is processed wider than the outside, when the nanoceramic 200 is filled and cured, it can be used firmly without separation even if an external force is applied.

As a result, the nano-ceramics 200 of various colors are filled in the filling grooves 110 and cured, so that the nano-ceramics 200 can be manufactured into various colors ornaments. Even without using a noble metal, The production cost can be lowered to meet the consumer's desire to purchase.

FIG. 6 is a cross-sectional view illustrating a state in which a nanoceramics is filled through a filling jig in a filling tank used when filling nano ceramics in ornaments in a method of manufacturing an ornamental filled with nanoceramics according to an embodiment of the present invention.

Referring to FIG. 6, when the nanoceramics 200 are filled in the accessory 100, the nanoceramics filling jig 300 can be used to fill the nanoceramics more densely.

The nano-ceramic filling jig 300 includes an ornamental support rod 310 having a diameter that is in contact with the inner circumference of the ornamental accessory 100 and is elongated in the form of a rod and an ornamental accessory 100 fitted to the outside of the ornamental support rod 310 An upper portion of which is inclined to have a diameter wider than the outer periphery of the ornamental body 100 and becoming narrower toward the lower side so as to guide the nanoceramic 200 toward the ornamental side, Tightly packed portions 330 are formed in the filling groove 110 to closely contact the outer circumferences of the ornaments 100 so that the nanoceramics 200 are closely packed in the filling grooves 110. The ornaments 100 The nanoceramics 200 can be filled in the filling grooves 110 densely as they pass through the nanoceramic filling jig 300.

The nano-ceramic filling jig 300 is immersed in the nanoceramics filling tank 400 so that the nano-ceramic filling jig 300 is immersed in the nanoceramic filling tank 400. In this case, 200) flows into the nanoceramic filling jig naturally.

The nano-ceramic filling jig 300 is installed so as to be submerged in the nano-ceramic filling tank 400 in which the nano-ceramic 200 is housed.

A temporary hardened portion 410 is formed at the lower portion of the nano-ceramic filling tank 400 to have the same diameter as the outer circumference of the ornamental 100 and downwardly recessed.

In the temporary hardening unit 410, the ornamental support rod 310 is inserted into the nanoceramics filling jig 300 and is held in an upright state.

At this time, a trinket support plate 311 having a size corresponding to that of the trinket 100 is provided in the lower part of the trinket support rod 310. When the trinket support rod 310 is inserted into the temporary curing part, the trinket support plate 311 And is held by the temporarily hardened portion 410 so that the ornamental support rod 310 is kept standing.

The process of filling the nanoceramic material 200 into the filling grooves 110 of the ornaments 100 using the nanoceramic filling jig 300 may be performed by inserting the ornaments 100 processed with the filling grooves 110 into the ornaments 100, The accessory 100 is moved downward along the accessory support rod 310 by its own weight and passes first through the filler guide 320 and the nanoceramics in the filler guide 320 are introduced into the filler groove 110 The nanoceramics 200 are densely packed in the filling grooves 110 while being moved toward the closely packed portion 330 in a filled state.

When the accessory 100 is moved to the temporary hardening unit 410 of the nanoceramics filling tank 400 by repeating this process, the nanoscale ceramic 200 is densely packed in the filling grooves 110 and the temporary hardening unit 410 ).

When the ornaments 100 are all stacked, the heater 420 installed while enclosing the temporary hardening portion 410 of the nanoceramic filling tank 400 is operated to temporarily hold the nanoceramics in the filling groove 110 Cured.

In this state, when the accessory support rod 310 is lifted up and separated, the accessory 100 temporarily cured by the nano-ceramic 200 is released to the outside of the nano-ceramic filling tank 400 by the accessory support plate 311 The filling of the nanoceramic 200 is completed.

Thereafter, the nano-ceramic is subjected to a primary drying step (S50) to dry the nanoceramics. When the primary drying is completed, the nanoceramics (200) are completely cured through a secondary cleaning step (S60) The heat treatment of the substrate 200 is completed.

After the heat treatment is completed, the ornaments 100 are inspected and dispensed through a step S80, and the good products are discharged and the defective products are collected again, thereby completing the manufacturing process of the ornaments 100.

As a result, the nanoceramics 200 can be densely packed in the filling groove 110 of the accessory 100, the filling process is easy, and the nanoceramic 200 is filled while minimizing the flow of the accessory 100. [ The quality of the finished product can be increased.

FIG. 7 is a perspective view illustrating an accessory manufactured by a method of manufacturing a nano-ceramic filled ornaments according to an embodiment of the present invention.

7, the ornaments 100 manufactured through the above steps are ring-shaped as a whole and are heat treated in a state where the nanoceramics 200 are filled with a predetermined width at the center, It can be manufactured in various forms according to the machining form of the tool.

As described above, the present invention can produce a high quality ornaments having a beautiful appearance by using a low-priced material compared to a noble metal, And to increase the sales.

S10: plating step S11: cleaning step
S12: electrolytic degreasing step S13: washing step
S14: pickling step S20: primary washing step
S21: Cleaning step S22: electrolytic degreasing step
S23: first water washing step S24: pickling step
S25: Second Washing Step S30: Grooving Step
S40: Nano ceramic filling step S50: Primary drying step
S60: Second washing step S70: Heat treatment step
S80: Inspection and Goods Stage
100: Accessory 110: Filling Home
200: Nano Ceramic 300: Nano Ceramic Filling Jig
310: trinket support bar 311: trinket support plate
320: filling guide part 321: nano ceramic inflow hole
330: Adhesive filling part 400: Ceramic filling tank
410: temporary hardening part 420: heater

Claims (4)

A plating step (S10) of plating the ornaments (100);
A first cleaning step (S20) of cleaning the plated accessories (100);
A groove machining step (S30) of machining the groove along the outer periphery of the ornamental accessory 100 that has been subjected to the first cleaning;
A nanoceramics filling step (S40) of filling the ornamental accessory (100) with the grooved finish by filling the nanoceramic (200);
A primary drying step (S50) of drying the ornaments (100) filled with the nanoceramics (200) at a temperature of 50 DEG C for 15 to 30 minutes;
A second washing step (S60) of washing the dried ornaments (100) with a cleaning agent;
A heat treatment step (S70) of heating the secondarily washed ornaments (100) by heating at 150 DEG C for 30 minutes or more; And
(S80) of inspecting and dispensing finished ornaments finished up to the second drying step (S80).
The method according to claim 1,
The plating step S10 includes a cleaning step S11 for removing foreign matter adhering to the outside before plating the ornamental 100 and an electrolytic degreasing step for removing the oil on the surface by electrolytic action of the cleaned ornaments 100 (S12), a washing step (S13) of washing the ornaments with water, a pickling step (S14) of immersing and removing light foreign substances, rust and scales by immersing the ornaments (100) in an oxidizing acidic solvent, and then plating Wherein the nanoceramics are filled with nanoceramics.
The method according to claim 1,
The grooving step S30 is a step of machining a groove in the ornamental accessory 100 so as to form a tapered shape so as to be widened from the outside to the inside when the grooves are machined to a certain depth along the outer periphery of the ornamental, 200) is not separated after being cured.
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