KR20210000553U - Artificial basalt stone using cork and phosphorescent material and its manufacturing method - Google Patents

Abstract

When the power of the lighting is cut off due to power outages or fires, including phosphors and cork, during the manufacture of artificial basalt stone, emergency roads, parks, trails, coastal roads, farm roads, bicycle paths, buildings, subways, etc. It can be usefully used as a display means and landscaping for night scenes, and by including cork by recycling discarded cork, it reduces the weight of stone and adds natural texture and color, has a buffering effect in case of collision, and does not decay. Regarding artificial basalt phosphorescent stone material made artificially to prevent natural damage by reducing the use of basalt collected from nature, the phosphor and cork mixture (hereinafter referred to as phosphor mixture) preparation stage, artificial basalt composition preparation stage, and shape of the stone surface Through the construction step, the phosphor mixture filling and precipitation step, the heat treatment step of coating a thermoplastic synthetic resin on the phosphor mixture, and the curing (curing) step of the artificial basalt stone material filled with the phosphor mixture, the production of phosphorescent artificial basalt stone material with excellent productivity It relates to a manufacturing method and a phosphorescent artificial basalt stone material manufactured using the same.
In addition, the present invention puts a phosphor mixture in which 20% of cork and 50% of a phosphor is mixed on an artificial basalt composition in a certain form, deposits a portion, and then melts by heating to a certain temperature after coating with thermoplastic synthetic resin powder. It is coated and then hardened with artificial basalt and adhered with strong bonding force, so there is no need for supplementary work such as additional adhesive or surface polishing, so manufacturing is easy and production of phosphorescent artificial basalt stone with excellent productivity is possible.

Description

Artificial basalt stone using cork and phosphorescent material and its manufacturing method}

This design makes it useful as an emergency indication means such as roads, parks, buildings, or subways at night when the power of the lighting is cut off due to power outages or fires, including phosphors and cork, when manufacturing artificial basalt stone. By including cork by recycling discarded cork, it reduces the weight of stone and adds natural texture and color, has a buffering effect in the event of a collision, and the characteristics of non-perishable cork make it possible to use for a long time and the use of basalt collected from nature. Regarding artificial basalt phosphorescent stone material that is artificially made to reduce natural damage, including: preparing a phosphor mixture, preparing an artificial basalt composition, forming a groove on the surface of an artificial basalt composition, filling and sedimenting a phosphor mixture, and coating a phosphor mixture. The present invention relates to a method of manufacturing a phosphorescent stone material that is easy to manufacture and has excellent productivity through processing steps such as a heat treatment step, a phosphor mixture and an artificial basalt composition curing step, and a phosphorescent artificial basalt stone material manufactured using the same.

Due to the influence of population growth and industrialization, there is an increasing tendency to value color and natural beauty in buildings, civil engineering structures, and sculptures, and in addition, various functions are required.

In addition, as the demand for nature conservation increases, natural basalt collection is prohibited, and a stone that has the high-quality texture and color of basalt, but with a guarantee of strength like concrete is required.

As a representative example, there is a growing expectation that a stone including a phosphor is used as an emergency display means such as a park, building, road, or subway at night when the power of lighting is cut off due to a power outage or fire. In addition, by including cork by recycling discarded cork, it reduces the weight of stone while adding natural texture and color, and satisfies the nature protection function that prevents damage to nature by reducing the use of non-perishable cork and the use of basalt collected from nature.

Domestic registered utility model No. 20-0393732 Road boundary stone

The present invention is a phosphorescent stone material that can be usefully used as an emergency indication means such as roads, parks, buildings, or subways at night when the power of the lighting is cut off due to power outages or fires, including the phosphorescent material of artificial basalt stone. As a technology devised to improve the problems of stone materials, a method of pre-producing sheets or coatings containing phosphors and bonding them to the stone materials, mixing liquid synthetic resins with adhesive components and phosphors. Then, it is manufactured in the form of ink (paint) and sprayed or applied to the stone for adhesion, or a mixture of liquid synthetic resin and phosphor in a predetermined ratio is filled in a predetermined shape engraved on the stone and cured. One photoluminescent stone has a problem in that the sheet or coating adhered to the stone is easily peeled off, or a problem of having to perform surface polishing and supplementation a number of times due to the formation of a non-uniform surface, provides a solution to this problem. The purpose is to reduce the weight of the stone by mixing the cork, add natural texture and color, have a buffering effect in the event of a collision, improve the adhesion of the luminous ore and protect the luminous ore, while matching the texture and color of the artificial basalt.

Invention aims to realize the desired purpose as described above,

For 50 parts by weight of thermoplastic synthetic resin powder with an average particle size of 500 um

Preparing a phosphor mixture comprising 50 to 70 parts by weight of a piece of phosphor having an average particle size of 6 to 9 mm, and 20 parts by weight of a piece of cork having an average particle size of 5 to 9 mm (S100);

Preparing an artificial basalt composition (S200) and;

Form construction step (S300) having a predetermined shape on the surface of the artificial basalt composition;

The phosphorous body filling step (S400) of filling the phosphor mixture prepared in the phosphor mixture preparation step (S100) on the surface of the artificial basalt composition treated in the shape construction step (S300) (at this time, a part of the phosphor is precipitated in the artificial basalt composition). )Wow;

The phosphor mixture coating heat treatment step (S500) of heat-treating the phosphor mixture treated at 120 to 150°C for a predetermined period of time (S500) and the phosphor mixture filling and precipitation step (S400);

Phosphorescence comprising: a curing step (S600) in which the phosphor mixture heat treatment step (S500) is dried at 45° C. for 24 hours to cure the phosphor mixture and the artificial basalt composition to be integrated. A method of manufacturing artificial basalt stone material and phosphorescent artificial basalt stone material manufactured using the same are presented.

The present invention is a phosphorescent stone material that can be usefully used as an emergency indication means for roads, parks, buildings, subways, etc. and landscapes for night scenes when the power of the lighting is cut off due to power outages or fires, including a phosphor, etc. As a means of solving the above problems, by including cork by recycling discarded cork, it reduces the weight of stone and adds natural texture and color, has a buffering effect in case of collision, and does not decay, the characteristic of cork and basalt collected from nature. It relates to an artificial basalt phosphorescent stone that is artificially made to prevent natural damage by reducing the use of the material.The phosphor mixed with a thermoplastic synthetic resin is filled in a shape of an artificial basalt composition and precipitated to a certain depth and heated to a certain temperature. When the artificial basalt composition is cured at a certain temperature, the photoluminescent body and the artificial basalt composition are integrated to solve problems such as peeling, breakage, manufacturing polishing, and supplementary work, which are the problems of the prior art. There is an effect that it is possible to manufacture a photoluminescent artificial basalt stone material manufactured using this.

1 is a block diagram showing a method of manufacturing a photoluminescent artificial basalt stone according to a preferred embodiment of the present invention.
Figure 2 is a photoluminescent artificial basalt boundary block according to an embodiment of the present invention.

The present invention can be usefully used as an emergency display means for roads, parks, buildings, subways, etc. and a landscape for a night view when the power of the lighting is cut off due to a power outage or fire, including a phosphor, and also By including cork by recycling discarded cork, it reduces the weight of stone while adding natural texture and color, has a buffering effect in case of collision, and prevents natural damage by reducing the use of non-perishable cork and basalt collected from nature. It relates to artificial basalt phosphorescent stone material that is artificially made to

For 50 parts by weight of thermoplastic synthetic resin powder with an average particle size of 500 um

Preparing a phosphor mixture comprising 50 to 70 parts by weight of a piece of phosphor having an average particle size of 6 to 9 mm, and 20 parts by weight of a piece of cork having an average particle size of 5 to 9 mm (S100);

Preparation of artificial basalt composition (composition consisting of cement, stone powder, gravel, and pigment) (S200)

A shape construction step (S300) having a predetermined shape (arrow, circle, text, etc.) on the surface;

The phosphorous body filling step (S400) of filling the phosphor mixture prepared in the phosphor mixture preparation step (S100) on the surface of the artificial basalt composition treated in the shape construction step (S300) (at this time, a part of the phosphor is precipitated in the artificial basalt composition). )Wow;

Heat treatment step (S500) of the phosphor mixture filling step (S400) of heat-treating and coating the processed phosphor mixture at 120 to 150°C for a predetermined period of time;

And a curing step (S600) in which the phosphor mixture coating heat treatment step (S500) is dried at 45° C. for 24 hours to cure and integrate the phosphor mixture and the artificial basalt composition. It relates to a method of manufacturing artificial basalt phosphorescent stone material and a phosphorescent artificial basalt stone material manufactured using the same.

The present invention is designed for emergency indication means such as roads, parks, trails, coastal roads, farm roads, bicycle trails, buildings or subways, and night views when the power of the lighting is cut off due to power outages or fires, etc. It can be usefully used as a landscaping for landscaping, and by including cork by recycling discarded cork, it reduces the weight of stone and adds natural texture and color, has a buffer effect in case of collision, and does not decay. The use of basalt can be reduced to prevent damage to nature.

Explanation of the sign
10: front shape with photoluminescent material mixture attached 20: side shape with photoluminescent material mixture attached
S100: phosphor mixture preparation step
S200: artificial basalt composition preparation stage
S300: Form construction step
S400: Filling and sedimentation step of phosphor mixture
S500: Heat treatment step of coating phosphor thermoplastic synthetic resin
S600: hardening step

Claims (10)

For 50 parts by weight of thermoplastic synthetic resin powder with an average particle size of 500 um
Preparing a phosphor mixture comprising 50 to 70 parts by weight of a piece of phosphor having an average particle size of 6 to 9 mm, and 30 parts by weight of a piece of cork having an average particle size of 5 to 9 mm (S100);
Preparing an artificial basalt composition (S200) and;
Form construction step (S300) having a predetermined shape on the surface of the artificial basalt composition;

Filling and precipitating the phosphor mixture prepared in the phosphor mixture preparation step (S100) on the surface of the artificial basalt composition treated in the shape construction step (S300) (at this time, the phosphor and cork of the phosphor mixture are precipitated in the artificial basalt composition) The phosphor mixture filling step (S400) and;

The phosphor mixture coating heat treatment step (S500) of heat-treating the phosphor mixture subjected to the step of filling the phosphor mixture at 120 to 150°C for a predetermined time (S500);

And a curing step (S600) in which the phosphor mixture coating heat treatment step (S500) is dried at 45° C. for 24 hours to cure the phosphor mixture and the artificial basalt composition to be integrated. Method for producing phosphorescent artificial basalt stone. The method of claim 1,

The method for producing a phosphorescent stone material, characterized in that the thermoplastic synthetic resin is a polyvinyl chloride-based, acrylic-based. The method of claim 1,

The phosphorescent body is a method of manufacturing a phosphorescent stone material, characterized in that the aluminum acid salt-based angular non-uniform shape rather than a round shape. The method of claim 1,

Cork in the phosphor mixture has a particle size of 5 to 9 mm, and a method of manufacturing a phosphorescent stone material using non-uniform pieces The method of claim 1,

The form composed on the surface of the artificial basalt composition,
Have a shape of at least one of linear, circular, polygonal, and character types;
A method of manufacturing a phosphorescent artificial basalt stone material in which the phosphor mixture is applied unevenly within its shape, and a part of the phosphor mixture is precipitated in the artificial basalt composition, coated by heat treatment, and then cured through a curing process to become one body with the artificial basalt stone material. The method of claim 1,
The method of manufacturing a phosphorescent stone material, characterized in that the heat treatment time of the coating heat treatment step (S500) of the phosphor mixture is 2 minutes. Phosphorescent artificial basalt stone produced by the method defined in claim 1. A photoluminescent artificial basalt stone material produced by the method defined in any one of claims 2 to 6. Artificial basalt stone manufactured by mixing phosphors in the manufacture of artificial basalt stone Artificial basalt stone manufactured by mixing cork in the manufacture of artificial basalt stone

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