KR100332336B1 - A method for processing natural fluorite - Google Patents

Abstract

According to the present invention, the selected fluorspar is cut to a specific size using a metal saw, the focal point is focused toward the back center of the gemstone cut to a specific size, and the fossil formed on the back is fixed to the stick with a modeling adhesive, The fixed gemstones are fixed to the index, and the diamonds are electrodeposited and rotated to a specific dimension, and the water is cut while spraying water to give a plurality of angles to the top, left, and front edges of the gemstones. The surface of the gemstones cut at a number of angles on the top, left, right and front edges of the gemstones are polished by contact with the rotating light plate, and the surface polished stones are removed from the sticks and attached to the back of the processed gemstones removed from the sticks. It is a fluorite processing method in which fluorspar is processed into jewelry by removing the modeling adhesive.

Therefore, according to the present invention, the fluorspar can be processed into gems cheaply and easily.

Description

Fluorite processing method {A method for processing natural fluorite}

The present invention relates to a fluorite processing method for cutting and polishing natural fluorite to process into a gem.

In general, emeralds are one of the three major jewels consumers want to have (diamonds, sapphires, emeralds), and because of their high price, they are sold only to a few minorities and could not induce a desire for the general public.

Due to this situation, synthetic emeralds similar to natural emeralds, for example, artificial synthetic stones such as choja, yag, and byron-mel are processed into artificial gems and distributed.

A gem is a stone that is produced very rarely and rarely. Secondly, it should not only be rare, such as scarcity and rareness, but also the beauty of a stone even if it is too small or too small. It is difficult to form a distribution market without this.

The value of jewelry can be developed in the precious metal jewelry industry only by its high value, vast marketability, processability to be processed into jewelry, and value as a jewelry.

In order to correct the jewelry market, first, we need to establish a reasonable and thorough quality assurance system, secondly, to establish various trade rules for the correct trading order, and thirdly to create and popularize natural emerald equivalent to natural emerald. It should be possible to offer it at an affordable price to replace the desire to buy.

However, since fluorspar belongs to an equiaxed system and has a low refractive index of 1.434, while its specific gravity is 3.18 and it is spread in the form of a cutting line, the color is not so multiply, the cleavage property is high, and the Mohs hardness is high. Low (H = 4) is a soft, weak crystal mineral that can be scratched by ordinary knives, and the cleavage in four directions is considerably developed, making it difficult to process jewelry. The inclusions had strong cleavage, abnormal inclusions and white spots, liquid inclusions, and poor heat resistance.

The present invention has been made in view of the various problems described above, and an object of the present invention is to provide a fluorite processing method which can inexpensively and easily process fluorspar into jewels.

Another object of the present invention to provide a fluorite processing method that can improve the production yield.

In order to achieve the above object, the present invention provides a screening step of screening color and size for processing into gemstones from feldspar, and a first cutting step of cutting the fluorspar selected in the screening step to a specific size using a metal saw. And a focus forming step of cutting and focusing the gemstones cut to a specific size in the first cutting step toward the back center of the gemstone to fix the gemstones cut to a specific size, and the gemstones having focus on the backside. The gemstone fixing step of melting and heating the modeling adhesive with an alcohol lamp at a temperature of 400 ° C. to 1000 ° C., and fixing the gemstone fixed to the stick in the gemstone fixing step to the index to fix the disc on which diamond is electrodeposited. Top, left, right, front and back of the pore steps to be rotated by a specific dimension while rotating, and the gemstones to be cut by a specific dimension in the pore step A second cutting step of cutting while spraying water to give a plurality of angles in the long position, and the abrasive is applied to the surface of the gemstone cut at a plurality of angles on the upper, left, front and rear edges of the gemstone in the second cutting step A polishing step of polishing while contacting the rotating light plate, a gemstone removing step of applying heat from an alcohol lamp to a modeling adhesive to melt the modeling adhesive, and removing the processed gemstone from the stick; Characterized in that the adhesive removal step for removing the modeling adhesive adhered to the back of the processed gemstone.

1 is a flow chart showing a fluorite processing method according to an embodiment of the present invention.

Hereinafter, the fluorspar processing method according to the present invention will be described in detail with reference to the accompanying drawings. In FIG. 1, S denotes a step.

1 is a flow chart showing a fluorite processing method according to an embodiment of the present invention. As shown in FIG. 1, in the fluorite processing method according to the present invention, first, in step S1, color and size are selected to process gemstones among the gemstones of the fluorite, and the process proceeds to step S2, and the selected gemstone is selected using a metal saw. Cut with

Next, the process proceeds to step S3 to cut and focus the gemstone cut to a specific size toward the back center of the cut gemstone to fix the V-shaped groove on the stick formed at the distal end, and proceed to step S4 to the back of the gemstone. The focused gemstone is melted by heating a modeling adhesive, for example, cerac, in an alcohol lamp at a temperature of 400 ° C. to 1000 ° C. (a part in which the gemstone is melted and bonded to facilitate the grinding of the gemstone) Secure in.

Subsequently, the process proceeds to step S5, where the gemstones (cut stones with a specific dimension) fixed to the sticks are fixed to the index, and the work is carried out with the correct dimensions while rotating the disk on which the diamond is electrodeposited. In the two plateform faceting machine, the drilled gemstone is cut while spraying water to give a plurality of angles to the top, left, and front edges of the gemstone, and the process proceeds to step S7 so that the top, left, and right surfaces are polished. The surface is polished by rotating a light plate coated with diamond powder (fine medicine) on a gemstone having a plurality of angles formed at the front and rear edges.

In step S7, the surface of the gemstone having a plurality of angles formed on the top, left, and front and rear edges is moved to step S8, and heat is applied to the alcohol lamp to melt the modeling adhesive to remove the processed gemstone attached to the stick, and to step S9. Processed gemstones removed from the sticks are poured into alcohol or caustic soda (sheep) to remove the modeling adhesive (ceramic) attached to the back.

The light plate used in the polishing process is a circular plate alloyed with tin and silver, and a fine groove is formed on the upper surface toward the center so that the polishing agent (polishing agent) is attached, and the polishing agent (polishing agent) is a synthetic diamond powder (synthetic diamond). It is preferable to use a known one composed of a powder, a polishing compound, chromium oxide or Lindy, and use a particle size of 50 to 200,000 mesh.

In addition, the modeling adhesive or cerac is preferably used a known synthetic resin adhesive that is melted at a temperature of 400 ℃ to 1000 ℃.

Since the fluorspar is processed into gemstones as described above, by processing the fluorspar by the fluorspar processing method of the present invention, it is possible to reduce the cracks of the fluorspar during cutting and polishing of the fluorspar, thereby improving the production yield, and inexpensive and easy. Can make fluorspar into jewelry.

As described above, according to the fluorite processing method of the present invention, the selected fluorspar is cut to a specific size using a metal saw, the focal point is focused toward the back center of the gemstone cut to a specific size, and the fossil with focal point formed on the back is The modeling glue is fixed to the stick, the raw stone fixed to the stick is fixed to the index, and the disc is drilled with a specific dimension while rotating the disk on which the diamond is electrodeposited. Cutting by spraying water to give an angle, polishing the surface of the gemstone cut at a number of angles on the top, left, right and front edges of the gemstone while contacting the rotating light plate, and removing the polished gemstone from the stick, Since it consists of the process of removing the modeling adhesive adhered to the back of the processed gemstone removed from Inexpensive and easy to process fluorspar as a jewel, and also to prevent the cracks during processing has an excellent effect of improving the production yield.

Claims (3)

A sorting step for sorting color and size for processing into gemstones from fluorspar stones, a first cutting step for cutting the fluorspar selected in the sorting step to a specific size using a metal saw, and a specific cutting step in the first cutting step. Focusing step for cutting and focusing the gemstone cut to the size of the V-shaped groove toward the back center of the gemstone to fix the stick, and the gemstone with the focusing on the back is known modeling adhesive alcohol lamp At a temperature of 400 ° C. to 1000 ° C., the gemstone fixing step of melting and fixing the stick to the stick, and the gemstone fixed to the stick in the gemstone fixing step to the index to rotate the disk on which the diamond is electrodeposited to a specific dimension. A plurality of angles on the top, left, right and front edges of the pore steps to be drilled and the gemstones drilled in a specific dimension in the pore steps. A second cutting step for cutting while spraying water to give a swivel, and the surface of the gemstone cut at a plurality of angles on the upper, left, front and rear edges of the gemstone in the second cutting step is coated with a known abrasive (polish) A polishing step for polishing while contacting the light plate, a gemstone removing step of applying a heat from an alcohol lamp to the polishing stone in the polishing step to melt a modeling adhesive to remove the processed gemstone from the stick, and a processing removed from the gemstone removing step A fluorite processing method comprising an adhesive removing step of removing the modeling adhesive adhered to the back of the raw stone. delete delete