KR100515153B1 - Phosphorescent accessories of glass and manufacturing method of the same - Google Patents

Abstract

The present invention relates to a glass ornament for decorating the body and a manufacturing method, the configuration is a glass ornament body which forms a closed surface by melting with sparks on one side of the glass tube and the insertion groove is formed on the other side; Filled inside the glass ornament body, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal resin, Thermoplastic, any one selected from the group consisting of polycarbonate and fibrin plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red), rhoda Phosphorescent pigments selected from the group consisting of Min (red), Oo (orange), Brilliant Sulfoflaven FF (Green), Pyramidine (Amber), and aluminate compounds with activators of rare earth elements A photoluminescent filler obtained by blending an ultraviolet curing agent; And a stopper for sealing the insertion groove of the glass ornament; comprising a luminous compound of the aluminate compound in the luminescent luminous pigment as a main component, and a luminous pigment to which a activator of a rare earth element is added. By using it, it has 10 times brightness in super brightness and 10 times brightness in afterglow brightness compared to conventional products, and it can repeat the absorption, emission, absorption, and emission of light, and it can be used permanently. There is no fear of being worn or peeled off by filling inside, and it is stable even in the natural state and has excellent light resistance, so it can be used outdoors under direct sunlight, and the light emission time is long after removing the light after being irradiated at night. It will continue to enhance the enthusiastic atmosphere by using colorful photoluminescent jewelry at concerts, festivals and parties. That there is an effect that it is possible to provide a luminous glass ornaments and a method of manufacturing the same.

Description

Phosphorescent accessories of glass and manufacturing method of the same

The present invention relates to a glass ornament for decorating the body and a method of manufacturing the same, and more particularly to a photoluminescent glass ornament for a long time after the light (radiation) is irradiated after removing the light and the luminescent glass ornament and its manufacturing method.

Generally, jewelry such as rings or necklaces are manufactured by combining separate jewelry minerals or jewelry in a state of forming a rough body shape by a casting method, and performing finishing operations such as polishing.

The jewelry using these gems does not shine at night without light, and the jewelry used at night is a luminous pigment that emits light energy for a certain period of time by light energy previously received even when the light is blocked instead of expensive jewelry. It has been used by applying it to the surface of the jewelry.

There are two types of luminous pigments, `` self-luminescent luminous '' and "luminescent luminous". The self-luminous luminous pigment can emit light overnight by radiation, but since it contains a radioactive substance, there is a limitation in use. Although strict management is required in production and disposal, the luminescent luminous pigments do not contain radioactive materials, but are not practical because they cannot emit light for a long time.

Conventional photoluminescent luminous pigment zinc sulfide type (ZnS: Cu) has been used to apply to all or part of the surface of ornaments for luminous paints, but afterglow did not have enough brightness to recognize all night and also has poor light resistance. It could not be used and was easily worn or peeled off and damaged, and had a problem that greatly reduced the effect as a jewelry.

The present invention has been proposed to solve the above-mentioned problems, and its object is to use a luminous pigment containing an aluminate compound of the luminescent luminous pigment as a main component and adding an activator of a rare earth element as a raw material of the phosphorescent filler. Since it is cured by UV irradiation for a short time, it is possible to mass-produce. It has 10 times of brightness in super brightness and 10 times in afterglow brightness compared with conventional products, and since these are oxides mainly composed of alumina, they absorb light. The light-absorption-absorption can be repeated, thereby providing a luminescent glass ornament and a method of manufacturing the same that can be used permanently.

In addition, by using the phosphorescent material filled in the glass ornaments there is no fear of wear or peeling off, stable in natural conditions and excellent light resistance, can be used outdoors under direct sunlight, after being irradiated with light (radiation) at night Even after the light is removed, the light emitting time lasts a long time, and thus, the use of colorful light emitting accessories at a performance hall, festival, or party provides a luminescent glass ornament and a method of manufacturing the same, which can further enhance the enthusiastic atmosphere.

The photoluminescent glass ornaments according to the present invention for achieving the above object comprises a glass ornament body which forms a closed surface by melting with a flame on one side of the glass tube and an insertion groove is formed on the other side; Filled in the glass ornament body, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal resin, Thermoplastic, any one selected from the group consisting of polycarbonate and fibrin plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red), rhoda Phosphorescent pigments selected from the group consisting of Min (red), Oo (orange), Brilliant Sulfoflaven FF (Green), Pyramidine (Amber), and aluminate compounds with activators of rare earth elements A photoluminescent filler obtained by blending an ultraviolet curing agent; And a stopper for sealing the insertion recess of the glass ornament.

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In addition, the photoluminescent filler is preferably a product obtained by reacting a polyester resin with 4-amino-1.8-naphthal-p-diphenylimide (yellow green) photoluminescent pigment to make it rake and pulverize.

In addition, the photoluminescent glass ornament manufacturing method according to the present invention comprises a first step of forming a glass ornament body is formed by melting the flame on one side of the glass tube to form a closed surface and the insertion groove is formed on the other side; Filled in the glass ornament body, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal resin, Thermoplastic, any one selected from the group consisting of polycarbonate and fibrin plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red), rhoda Phosphorescent pigments selected from the group consisting of Min (red), Oo (orange), Brilliant Sulfoflaven FF (Green), Pyramidine (Amber), and aluminate compounds with activators of rare earth elements A second step of blending an ultraviolet curing agent to obtain a photoluminescent filler; A third step of filling the phosphorescent filler obtained in the second step into the insertion recess of the glass ornament body molded in the first step; A fourth step of curing the photoluminescent filler filled in the glass ornament body in the third step by irradiating ultraviolet light for about 2 seconds to 2 minutes; And a fifth step of hardening the glass ornament body and the photoluminescent filler in the fourth process, and then sealing the plug by molding the glass ornament insertion recess.

Hereinafter, a luminescent glass ornament and a method of manufacturing the same according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a photoluminescent glass ornament according to an embodiment of the present invention, Figure 2a is a perspective view briefly showing a molding process of the photoluminescent glass ornament body according to the present invention, Figure 2b is a photoluminescent light according to the present invention 3 is a plan view briefly showing a filling process for filling a photoluminescent filler inside a glass ornament body, and FIG. 2C is a plan view briefly showing a curing process of curing the photoluminescent filler according to the present invention by UV irradiation, and FIG. It is a process chart which shows the manufacturing method of the photoluminescent glass ornament which concerns on an Example.

The photoluminescent glass ornament according to the present invention is a glass ornament body 100, the photoluminescent filler 200 is filled in the glass ornament body 100, as shown in Figures 1 and 2a, 2b, 2c, stopper And 300.

In the present invention, the glass ornament body 100 has a substantially necklace shape as shown in the drawing, and heats and melts one end of the glass tube 105 made of glass of a predetermined length at a high temperature of about 1000 ° C. or higher to close the curved surface. To achieve this and to cut into a predetermined length is to be inserted groove 110 is formed therein.

The glass ornament body 100 can be used for a long time without discomfort to wear or use because there is no fear of falling or broken by using a material of tempered glass.

The photoluminescent filler 200 is obtained by mixing the photoluminescent pigment 220 and the ultraviolet curing agent 230 to the thermoplastic resin 210 in the form of granules, fine particles, small pieces or powder.

Here, the thermoplastic resin 210 exhibits a plasticity by softening when heated, and refers to a plastic that is solidified by cooling. Typical plastics belonging to the thermoplastic resin include vinyl chloride resin, vinyl acetate resin, polystyrene, and ABS. Resins, acrylic resins, polyethylene, polypropylene, fluorine resins, polyamide resins, acetal resins, polycarbonates, and fibrous plastics.

In the embodiment of the present invention, it is preferable to use polypropylene (Poly-Propylene) which is used as an extender and a filler and has good processability and physical properties.

The photoluminescent pigment 220 refers to a pigment that emits light for a long time after removing the light when irradiated with light (radiation) on an object. Phosphorescence is applied to the material for a long time (1/1000 second to 1 day) even after the light is removed. Therefore, it shines).

Such phosphorescent materials are called phosphors, and natural products include various gemstones and sulfide minerals. Artificial materials include sulfides of alkaline earth metals and heavy metals contained in zinc sulfide.

The photoluminescent pigment 220 used in the present invention is a pigment having a property of absorbing and accumulating light such as sunlight and phosphors, and gradually emitting and emitting light in a dark place, and the absorption-accumulation-luminescence process can be performed in any number of times. It can be used semi-permanently.

Fluorescent pigments are materials that absorb short-wavelength light up to the blue or green portion of ultraviolet light and visible light and emit longer wavelengths of visible light. Fluorescent pigments have such properties. It is called a pigment.

The fluorescent pigments include inorganic fluorescent pigments and organic fluorescent pigments, and organic fluorescent pigments include dark light type and bright light type.

The bright type does not emit an intrinsic fluorescent color under dark light, but fluorescence is finally recognized under light. The dark type is of the opposite nature.

In an embodiment of the present invention, it is preferable to use a photoluminescent pigment 220 which emits light for a long time under no light or dark light without using a dark fluorescent type organic fluorescent pigment and under no light. Do.

The UV curing agent 230 is a two-component epoxy resin (Two Compound Epoxy) by mixing the main agent and the curing agent is to be combined to enable curing or thermal curing by ultraviolet at room temperature.

Here, in another embodiment of the present invention, it is preferable to use the epoxy curing agent 240 instead of the ultraviolet curing agent 230.

The epoxy curing agent 240 can be added a large amount of various fillers when the main material and the curing agent diluted 2: 1, the curing reaction of the photoluminescent filler 200 occurs slowly due to the dilution effect of the filler at room temperature larger mold It can make a product, and it is very good in dimensional stability and can give the jewelry which is excellent in abrasion resistance.

The particle size of the filler is generally used between 200 and 350 mesh.

Subsequently, the phosphorescent filler 200 blended as described above is injected into the interior of the glass fitting body 100 through the insertion recess 110.

Since the photoluminescent filler 200 includes an ultraviolet curing agent 230, the photoluminescent filler 200 is filled in the glass ornament body 100 and cured immediately after being irradiated with ultraviolet light for about 2 seconds to 2 minutes by an ultraviolet irradiator.

The stopper 300 is to seal it when the photoluminescent filler 200 in the glass ornament body 100 is solidified integrally.

As shown in FIG. 3, the method of manufacturing the photoluminescent glass ornament of the present invention is first performed by forming a glass ornament body in which a glass tube is melted with a spark on one side to form a closed surface and an insertion recess is formed on the other side. .

Subsequently, the glass is filled in the body of the jewelry, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal Thermoplastic, any one selected from the group consisting of resins, polycarbonates, and fibrous plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), and anthrapyrimidine (red) , Luminous (Red), Osin (Yellow), Brilliant Sulfoflaven FF (Green), Pyramidine (Yellow) and selected from the group consisting of aluminate compounds and rare earth element activator A second step (S120) of blending a pigment and an ultraviolet curing agent to obtain a photoluminescent filler is performed.

Subsequently, a third step S130 of filling the photoluminescent filler 200 obtained in the second step into the insertion recess 110 of the glass ornament body 100 formed in the first step is performed.

That is, the glass ornament body is made by injecting a phosphorescent pigment and an ultraviolet curing agent (or epoxy curing agent) in a predetermined ratio into a transparent resin such as a thermoplastic resin, and mixing and kneading the phosphorescent filler 200 to soften it. Filling into the insertion groove 110 of the 100.

Next, a fourth step (S140) of curing the photoluminescent filler 200 filled in the glass fitting body 100 in the third step by irradiating ultraviolet light for about 2 seconds to 2 minutes.

Here, in the embodiment of the present invention, the blending of the ultraviolet curing agent 230 to the photoluminescent filler 200 is a short time of about 2 seconds to 2 minutes by the ultraviolet photoluminescent filler is combined with the ultraviolet curing agent 200 This is because the work is clean, simple, and it does not take long time, which is advantageous for mass production.

On the other hand, in another embodiment of the present invention, the compounding of the epoxy curing agent 240 in the photoluminescent filler 200, the photoluminescent filler 200 is an epoxy curing agent blended slowly takes a long time because the production at room temperature On the contrary, the reaction shrinkage is small, so the dimensional stability is very good, and the jewelry with excellent wear resistance can be produced.

Subsequently, when the glass ornament body 100 and the photoluminescent filler 200 are integrally cured in the fourth process, a fifth process (S150) of molding and sealing the stopper 300 to the glass ornament insertion recess 110 is performed. Do it.

The stopper 300 is molded into a metal in accordance with the glass ornament insertion groove 110, and then bonded with a two-component epoxy adhesive to seal the surface after polishing.

Hereinafter, in order to specifically illustrate the present invention, working examples of embodying the photoluminescent filler 200 will be described.

70g of a photoluminescent material made by extracting 45g of resin containing 1kg of polypropylene and 0.1g of C / Y 9500 and 180g of 1kg of polypropylene and 0.1g of gold green. When combined with 20% by weight of UV curing agent and the luminous filler 200 to give a green light is formed.

Subsequently, the phosphorescent filler 200 blended at the above ratio was heated to fill the insertion recess 110 of the glass ornament body 100 with a syringe or the like while being softened, and then, about 2 seconds to about 2 seconds with an ultraviolet irradiator. UV light is cured by irradiation for a minute, and the insertion groove 110 of the glass ornament body 100 is sealed with a stopper to form a photoluminescent glass ornament to emit light for a long time after removing the light.

In addition, the luminous material which emits blue light when 70% by weight of polypropylene and 20% by weight of an epoxy hardener are mixed with a photoluminescent material made by extracting 200 g from a resin containing 1 kg of polypropylene and 0.35 g of sidan in the same manner as described above. 200) is formed.

Since the photoluminescent filler 200 is an epoxy curing agent, the photoluminescent glass ornament is formed by sealing the insertion recess 110 of the glass ornament body 100 with a stopper after gradually curing at room temperature.

In the same manner, a phosphorescent material, which is formed by extracting 200 g from a resin containing 1 kg of polypropylene and 0.2 g of red, is mixed with 70% by weight of polypropylene and 20% by weight of a UV curing agent to emit red light. ) Is formed. ,

During the process, the color is determined according to the type or amount of the phosphorescent pigment, the color of which is dixanthylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red) , Photoluminescent pigments such as rhodamine (red), osin (yellow), brilliant sulfoflavin FF (green), pyramidine (yellow brown) are combined with acrylic resin, vinyl chloride resin, urea resin, etc. Can be.

As described above, the photoluminescent glass ornaments and the method of manufacturing the same are not limited to necklaces, but various rings, earrings, bracelets, accessories, and the like can be implemented in various designs.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, it is intended to be illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

As described above, according to the luminescent glass ornament and the manufacturing method thereof according to the present invention, a short time by using a luminous pigment containing the aluminate compound of the luminescent luminous pigment as the main component as a raw material of the luminescent filler Because it is cured by UV irradiation, it can be mass-produced. It has 10 times brightness at super brightness and 10 times afterglow brightness compared with conventional products. Since these are oxides based on alumina, they absorb light. Absorption-light emission can be repeated, which has the effect of providing a photoluminescent glass ornament and a method of manufacturing the same that can be used permanently.

In addition, by using the phosphorescent material filled in the glass ornaments there is no fear of wear or peeling off, stable in natural conditions and excellent light resistance, can be used outdoors under direct sunlight, after being irradiated with light (radiation) at night Even after the light is removed, the light emitting time lasts a long time, and thus, the use of colorful light emitting ornaments in a performance hall, a festival, and a party has the effect of providing a luminescent glass ornament and a method of manufacturing the same, which can further enhance the enthusiastic atmosphere.

1 is a perspective view showing a photoluminescent glass ornament according to an embodiment of the present invention

Figure 2a is a perspective view briefly showing the molding process of the photoluminescent glass ornament body according to the present invention

Figure 2b is a plan view briefly showing the filling process for filling the phosphorescent filler in the phosphorescent glass ornament body according to the present invention

Figure 2c is a plan view briefly showing a curing process for curing by irradiation with ultraviolet light to the photoluminescent filler according to the present invention

Figure 3 is a process chart showing a method of manufacturing photoluminescent glass ornaments according to an embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

100. Glass ornament body 110. Insertion groove

200. Phosphorescent filler 210. Thermoplastic

220. Phosphorescent pigment 230. UV curing agent

240. Epoxy Curing Agent 300. Plug

Claims (7)

A glass ornament body which is melted with a flame on one side of the glass tube to form a closed surface and an insertion recess is formed on the other side; Filled in the glass ornament body, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal resin, Thermoplastic, any one selected from the group consisting of polycarbonate and fibrin plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red), rhoda Phosphorescent pigments selected from the group consisting of Min (red), Oo (orange), Brilliant Sulfoflaven FF (Green), Pyramidine (Amber), and aluminate compounds with activators of rare earth elements A photoluminescent filler obtained by blending an ultraviolet curing agent; And And a stopper for sealing the insertion recess of the glass ornament; and the photoluminescent glass ornament, characterized in that configured to emit light for a long time after removing the light. delete delete The method of claim 1, wherein the phosphorescent filler is A photoluminescent glass ornament, which is obtained by reacting a polyester resin with 4-amino-1.8-naphthal-p-diphenylimide (yellow green) photoluminescent pigment and laminating it to crush it. delete A first step of forming a glass ornament body in which one side of the glass tube is melted with a flame to form a closed surface and an insertion recess is formed at the other side; Filled in the glass ornament body, granules, fine particles, small pieces or powdered vinyl chloride resin, vinyl acetate resin, polystyrene, ABS resin, acrylic resin, polyethylene, polypropylene, fluorocarbon resin, polyamide resin, acetal resin, Thermoplastic, any one selected from the group consisting of polycarbonate and fibrin plastics, dixylene (light blue), 2.2'-dihydroxy-α-naphthaldadine (light yellow), anthrapyrimidine (red), rhoda Phosphorescent pigments selected from the group consisting of Min (red), Oo (orange), Brilliant Sulfoflaven FF (Green), Pyramidine (Amber), and aluminate compounds with activators of rare earth elements A second step of blending an ultraviolet curing agent to obtain a photoluminescent filler; A third step of filling the phosphorescent filler obtained in the second step into the insertion recess of the glass ornament body molded in the first step; A fourth step of curing the photoluminescent filler filled in the glass ornament body in the third step by irradiating ultraviolet light for about 2 seconds to 2 minutes; And And a fifth step of hardening the glass ornament body and the phosphorescent filler in the fourth process and then molding and sealing the stopper to the glass ornament insertion recess. 5. delete