KR101227957B1 - Gas bubble rising prevention method at repairing process of porcelain artificial tooth - Google Patents

Abstract

The present invention relates to a bubble generation prevention method for preventing air bubbles generated in the artificial porcelain tooth when A / S while using an artificial tooth made of porcelain.
An object of the present invention is to be able to prevent the generation of air bubbles in the porcelain artificial teeth during repair of porcelain artificial teeth.
As a means for solving the above problems, the porcelain artificial tooth can be preheated to evaporate the water, and then the porcelain artificial tooth can be removed by heating it in a heating furnace.
The present invention as described above can prevent the generation of air bubbles in the porcelain by preheating the porcelain artificial tooth to discharge the moisture and various impurities absorbed by the porcelain artificial tooth and then heated in a heating furnace, porcelain artificial tooth To prevent defects, reduce waste of raw materials and reduce unnecessary expenses.
In addition, the present invention is a useful invention that can reduce the repair time of the porcelain artificial tooth by preventing the generation of bubbles of the porcelain artificial tooth, and can reuse the porcelain artificial tooth at a low price.

Description

Gas bubble rising prevention method at repairing process of porcelain artificial tooth}

The present invention relates to a bubble generation prevention method for preventing air bubbles generated in the artificial porcelain tooth when A / S while using an artificial tooth made of porcelain.

In general, since porcelain is semi-transparent and light-transmitting, it has a transparency similar to that of natural teeth, which can produce a similar color tone as that of natural teeth.

As such, the artificial tooth made of porcelain has no discoloration even after time, but has a disadvantage of being broken when the impact is weak due to its weak strength.

Therefore, to strengthen the strength of porcelain, the inner tube is made by putting gold or metal inside the ceramic material, and the exterior is made by applying porcelain to the outside to make an artificial tooth.

When using the porcelain artificial teeth as described above, if the food is often caught between the porcelain portion or cracked or cracked porcelain artificial tooth request to repair.

In this way, when the A / S application is made for porcelain artificial tooth through the dentist, the porcelain artificial tooth is repaired at the dental laboratory.

However, when repairing the porcelain artificial teeth there is a big problem that can not use the artificial tooth itself due to the air bubbles generated in the porcelain when heated to form the porcelain after repairing the damaged porcelain part.

In more detail, since porcelain artificial teeth are repaired while porcelain itself absorbs impurities such as moisture and various foods, and porcelain is heated when heated after repairing porcelain artificial teeth in this state. There is a disadvantage that bubbles are generated in porcelain due to moisture and impurities.

Cooling the air bubbles generated in the porcelain as described above is a groove formed in the area where the bubble was present to lose the function as an artificial tooth to cause a poor porcelain artificial tooth, there is a problem to discard the artificial porcelain teeth.

On the other hand, recently, in order to solve the above problems, the porcelain artificial tooth which has been repaired and received was removed from the porcelain artificial tooth in the water to remove the water and impurities, or it was put in alcohol or heated.

However, when the porcelain artificial tooth is put in the water to be cut off or put into alcohol or heated, the foreign substance in the porcelain can be removed, but since the porcelain itself can not remove the water absorbed, the porcelain artificial tooth is repaired. When heated, the basic problem of foaming could not be solved.

As described above, the repair of porcelain artificial teeth, which were conventionally accommodated, caused a high rate of defects and wasted a lot of raw materials, and the user incurred unnecessary expenditure.By generating porcelain artificial teeth, the porcelain artificial tooth itself was discarded in modern artificial teeth. It is a big problem and needs to be solved urgently.

The present invention has been invented to solve the above problems, an object of the present invention is to be able to prevent the generation of air bubbles in porcelain artificial teeth when repairing porcelain artificial teeth.

As a means for solving the above problems, the porcelain artificial tooth can be preheated to evaporate the water, and then the porcelain artificial tooth can be removed by heating it in a heating furnace.

The present invention as described above can prevent the generation of air bubbles in the porcelain by preheating the artificial porcelain tooth to discharge the moisture and various impurities absorbed by the artificial porcelain tooth and then heated in a heating furnace.

In this way, the present invention can prevent bubbles caused by porcelain, thereby preventing defects of artificial porcelain teeth, reducing waste of raw materials due to defects, and reducing unnecessary expenses.

In addition, the present invention is a useful invention that can prevent the generation of porcelain artificial teeth to shorten the repair time of the porcelain artificial teeth, reuse the porcelain artificial teeth at a low price.

1 is a block diagram illustrating a process of the present invention.

Primary preheating process for preheating the porcelain artificial tooth to be repaired in a crucible (heating furnace) for 10 minutes at 190 ℃ ~ 210 ℃,

Second preheating step of drying the porcelain artificial teeth after mooring for 20 minutes at 290 ℃ ~ 310 ℃ in the crucible after the first preheating process,

After the second preheating process, pre-processing the precerin artificial tooth for 15 minutes at 390 ℃ ~ 410 ℃ in the crucible,

A fertilization process for correcting the porcelain artificial tooth that has undergone the third preheating process,

A molding process of heating the porcelain artificial tooth after the fertilization process is completed in a heating furnace and heating the newly applied porcelain in a heating furnace,

It includes a withdrawal step of taking out the porcelain artificial tooth after the molding step.

Referring to the present invention as described above in detail as follows.

The porcelain artificial tooth received for repair at the dentist is made up of porcelain applied to the outside of the inner tube made of gold or metal. Therefore, the porcelain applied to the outside of the inner tube absorbs various foreign substances and moisture.

Thus, in order to remove various foreign substances and water absorbed in the porcelain site of the porcelain artificial tooth into a crucible where heat is generated first, preheat 10 minutes at 190 ° C to 210 ° C.

As described above, since the porcelain artificial tooth is preheated at 190 ° C. to 210 ° C. in the crucible for 10 minutes in the first preheating process, the small moisture and small foreign matter absorbed in the porcelain can be removed by drying.

In this way, after removing the large moisture and foreign substances by the first preheating process, the porcelain artificial tooth is preheated in the crucible for 20 minutes at 290 ℃ ~ 310 ℃ again to remove the small large foreign substance and the remaining large moisture absorbed by the porcelain. do.

After removing the foreign matter and water through the second preheating process as described above, while preheating the artificial porcelain teeth for 15 minutes at 390 ℃ ~ 410 ℃ in the crucible completely removes the fine water in the porcelain site.

In this way, the porcelain artificial tooth received the repair is caught in the third step to remove foreign substances and water, and then the porcelain artificial tooth is repaired.

As described above, the repaired porcelain artificial tooth may be heated in a heating furnace to mold the repaired porcelain site, and the molded porcelain artificial tooth may be taken out.

In other words, when the porcelain artificial tooth is heated from a high temperature to a high temperature by heating the porcelain artificial tooth in a manner of evaporating and removing various foreign substances and water absorbed in the porcelain site when the porcelain artificial tooth is repaired, it is perfect. It can be blocked.

Claims (2)

First pre-heating process of preheating the porcelain artificial tooth to be repaired in the crucible for 10 minutes from 190 ℃ to 210 ℃,
Second preheating step of drying the porcelain artificial teeth after mooring for 20 minutes at 290 ℃ ~ 310 ℃ in the crucible after the first preheating process,
After the second preheating process, a preheating process for preheating the porcelain artificial tooth to 390 ° C. to 410 ° C. for 15 minutes in a crucible,
A fertilization process for correcting the porcelain artificial tooth which has undergone the third preheating process,
A molding process of heating the porcelain artificial tooth after the fertilization process is completed in a heating furnace and heating the newly applied porcelain in a heating furnace,
Method for preventing the occurrence of bubbles in the repair process of the porcelain artificial tooth, characterized in that it comprises a withdrawal step of withdrawing the porcelain artificial tooth after the molding process. The method of claim 1, wherein the porcelain artificial tooth is preheated to dry and remove moisture absorbed in the porcelain.

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