KR20110105430A - Ceramic dental prostheses and production methods to do this flask - Google Patents

Abstract

The present invention, by implementing a manufacturing process of filling the ceramic raw material in the pattern in the form of a dental prosthesis and pressurizing it to a high temperature, so that the dental prosthesis can be produced more easily and excellent quality, pressurized such a dental prosthesis The present invention relates to a method for manufacturing a ceramic dental prosthesis and to a flask for performing the same.
To this end, the manufacturing method of the present invention, in the process of manufacturing a dental prosthesis made of a ceramic material, the step of designing the shape of the desired tooth, and manufacturing the pattern core of the tooth through the processing machine by the designed data; Injecting the pattern core into the flask to bury the heat-resistant investment material, and then injecting the flask into a heating furnace and heating to a predetermined temperature to form a pattern in the investment material of the flask by combustion of the pattern core; Filling a ceramic raw material for producing a dental prosthesis in the pattern, and putting a flask filled with the ceramic raw material into a sintering furnace to press-sinter the ceramic raw material filled in the pattern to a predetermined temperature to form a dental prosthesis; ; Taking out the pressurized sintered dental prosthesis from the flask, and finishing the product of the dental prosthesis taken out by the polishing machine to complete the product.
In addition, the flask of the present invention, in the tool is filled with a buried material forming a pattern for producing by pressing and sintering the dental prosthesis, the main body having a filling space formed therein so that the buried material is filled therein, and At least one side wall of the filling space is configured to form a fixed surface to prevent rotation after the investment material is cured.

Description

Ceramic dental prostheses and production methods to do this flask

The present invention relates to a ceramic dental prosthesis manufacturing method and a flask for performing the same. In detail, the present invention, by implementing a manufacturing process of filling the ceramic raw material in the pattern in the form of a dental prosthesis and pressurizing it at a high temperature, so that the dental prosthesis can be produced more easily and excellent quality, such a dental prosthesis The present invention relates to a method for manufacturing a ceramic dental prosthesis, and a flask for performing the same, by proposing a tool having a suitable configuration for pressurizing and sintering.

The dental prosthesis is an artificial tooth that is manufactured in advance to perform dental treatment, and it is well known that the dental prosthesis is the most important element in the dental prosthesis field. Such a dental prosthesis is mainly produced by the process of layering and sintering ceramic raw materials.

The conventional manufacturing process of the dental prosthesis as described above is as follows.

First, the primary form of the cream-like dentin porcelain, which is made by mixing the powdered ceracic powder with distilled water on the outer surface of the coping made of metal, maintains the basic form of the prosthesis, and enamel ceramic Secondary veneering maintains the final shape of the prosthesis.

Thereafter, the prosthesis formed in the final form as described above is put into a vacuum sintering furnace and vacuum sintered at a temperature of 930 ° C. to obtain a prosthesis having a desired strength, and the outer surface of the prosthesis manufactured as described above to fit the desired size. Trim the to obtain the finished dental prosthesis.

The dental prosthesis manufactured as described above is contracted to 20% to 30% in size when the final prosthesis is vacuum sintered in a vacuum sintering furnace. At this time, the layering process is not only difficult to work as it is because the porcelain in the form of a cream using a brush, as well as grasp the degree of the build-up larger than the desired size requires a considerable skill of the operator Excessive labor expenses are incurred due to hiring.

In addition, even when the work is performed by the professional personnel, it is difficult to always complete the work result in a uniform quality due to the nature of the manual work, and the problem of extremely low productivity due to the small number of finished products produced per unit time is exposed.

The present invention has been invented to solve the above problems.

Accordingly, the present invention, by forming a pattern to produce a dental prosthesis made of a ceramic material more easily and excellent quality, by implementing an optimal manufacturing process of filling and sintering the ceramic raw material inside the pattern, even if not professional man Its purpose is to provide a production method that enables the production of large quantities of products.

Another object of the present invention, when manufacturing the dental prosthesis by performing the manufacturing process, to provide a flask by suggesting a tool of the most suitable configuration.

In order to achieve the above object, the present invention performs the following steps.

In the manufacturing method of the present invention, in the process of manufacturing a dental prosthesis made of a ceramic material, the step of designing the shape of the desired tooth, and manufacturing the pattern core of the tooth through the processing machine by the designed data; Injecting the pattern core into the flask to bury the heat-resistant investment material, and then injecting the flask into a heating furnace and heating to a predetermined temperature to form a pattern in the investment material of the flask by combustion of the pattern core; Filling a ceramic raw material for producing a dental prosthesis in the pattern, and putting a flask filled with the ceramic raw material into a sintering furnace to press-sinter the ceramic raw material filled in the pattern to a predetermined temperature to form a dental prosthesis; ; Taking out the pressurized sintered dental prosthesis from the flask, and finishing the product of the dental prosthesis taken out by the polishing machine to complete the product.

Here, the step of designing the shape of the tooth and manufacturing the pattern core is performed by CAD / CAM and 3D printer. In addition, the pattern core is made of a solid wax or synthetic resin material to be burned at a constant temperature.

In particular, the ceramic raw material is to fill the pattern with the enamel raw material and dentin raw material in turn.

In order to achieve the above another object, the present invention has the following configuration.

The flask of the present invention, in the tool is filled with a buried material forming a pattern for producing by pressing and sintering the dental prosthesis, the main body having a filling space therein for filling the investment material therein, and the filling space of the main body At least one side of the wall surface is configured to form a fixed surface to prevent rotation after the investment material is cured.

As described above, the present invention, by the process of filling the ceramic raw material in the pattern of the ceramic dental prosthesis and pressure sintering it is possible to produce a product of excellent quality even if not professional personnel, the production time of the product is drastically shortened the product By making a large amount of can be obtained to reduce the excessive labor costs and increase the productivity by increasing the number of finished products per unit time.

1 is a flow chart of the dental prosthesis manufacturing process according to the present invention.
Figure 2 is an illustration of a dental prosthesis manufacturing process according to the present invention.
3 is a perspective view of a flask according to the present invention;
4 is a cross-sectional view of the flask according to the present invention.
Figure 5 is a cross-sectional view of the use of the flask according to the present invention.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a flow chart of a dental prosthesis manufacturing process according to the present invention, Figure 2 is an exemplary view of a dental prosthesis manufacturing process according to the present invention.

Referring to the drawings, in order to perform the dental prosthesis manufacturing process according to the present invention first to design the shape of the target tooth. (S1) Here, the shape of the tooth is X-ray film, CT of the patient taken in the hospital When various types of data are provided, such as a film or an MRI film, it is designed in a 2D or 3D form by a conventional program. At this time, a computer-aided design (CAD) program is used as a program mainly used.

Subsequently, when the shape of the tooth is designed as described above, the pattern core 1 having the same shape as the shape of the tooth is processed and manufactured. (S2) At this time, the pattern core 1 forms a dental prosthesis pattern to be described later. It is intended to be made of a material for combustion when heated to a certain temperature. To this end, the pattern core (1) is mainly made of a solid wax or synthetic resin material.

As such, the process of designing the shape of the tooth and manufacturing the pattern core 1 is performed by sending the data to a 3D printer (shape processing machine) by CAD (Computer-Aided Design) / CAM (Computer-Aided Manufacturing) program. Allow work to be performed.

When the pattern core (1) is completed as described above to form a pattern of the dental prosthesis (D), the pattern (2) is filled with a heat-resistant investment material (4) in the flask 3, the pattern core (1) After being charged in a buried state (S3), it is performed by heating the pattern core 1 by heating it (S4).

Specifically, the flask 3 is buried in the upper and lower body as a pair of upper and lower parts of the pattern core 1 to be buried respectively, and then the flask 3 When the heating material is put into a heating furnace, the investment material inside the flask 3 is cured at a constant temperature (approximately 800 ° C.), and at the same time, the pattern core 1 is combusted so that the dental prosthesis ( The pattern 2 of D) is formed.

Here, looking at the specific configuration of the flask (3), a filling space 6 for filling the buried material is formed in the interior of the main body 5, at least any one wall surface (more than two wall surfaces of the filling space 6) A fixed surface 7 is formed in order to prevent the investment material from being rotated after curing.

In particular, the flask 3 is made of a metallic material in order to have durability at a high temperature, and may be any material as long as the flask 3 can have durability at a temperature of 930 ° C. which is a pressure sintering temperature to be described later.

Reference numerals 8 and 9 in FIG. 3 represent the supports and lids used for the storage of flasks or for performing certain operations.

When the pattern 2 is formed as described above, the ceramic raw material for manufacturing the dental prosthesis is filled in the pattern 2. (S5) At this time, the ceramic raw material is a dentin ceramic material (raw material) ) And the enamel raw material and the dentin raw material are sequentially filled in the same way as the secondary layering is made of the enamel ceramic material (raw material).

Subsequently, the upper and lower flasks 3 filled with the ceramic raw material in the pattern 2 are mutually bonded to each other (face-to-bottom bonding), and the sintering furnace is pressed and sintered to a predetermined temperature to form the pattern of the flask 3 ( In 2), the ceramic raw material is pressed and sintered to form the shape of the dental prosthesis D. (S6)

As such, when the dental prosthesis (D) is press-sintered and formed in the flask (3), the dental prosthesis (D) is taken out of the flask (3) to obtain a desired dental prosthesis (D) product. In addition, the extracted dental prosthesis (D) is to finish the finish by polishing the outer surface with a grinding machine or a very fine sandpaper (S8).

1: pattern core 2: pattern
3: flask 4: investment material
5: body 6: charging space
7: fixed surface D: dental prosthesis

Claims (5)

In the process of manufacturing a dental prosthesis made of ceramics,
Designing the shape of the desired tooth, and manufacturing the pattern core 1 of the tooth through a machine according to the designed data;
After the pattern core 1 was introduced into the flask 3 and buried with the heat resistant investment material 4, the flask 3 was put into a heating furnace and heated to a predetermined temperature to burn the pattern core 1 by combustion. Allowing a pattern (2) to be formed in the investment material (4) of the flask (3);
Filling the pattern (2) with a ceramic raw material for producing a dental prosthesis, the flask (3) filled with the ceramic raw material is put into a sintering furnace and the ceramic raw material filled in the pattern (2) is pressed and sintered to a predetermined temperature Allowing the shape of the prosthesis (D) to be formed;
Taking out the pressurized sintered dental prosthesis (D) from the flask (3), and trimming the appearance of the dental prosthesis (D) taken out by the polishing machine to complete a product; and a method for producing a ceramic dental prosthesis .
The method of claim 1,
Designing the shape of the tooth and manufacturing the pattern core (1) is a ceramic dental prosthesis manufacturing method, characterized in that performed by CAD / CAM and 3D printer.
The method according to claim 1 or 2,
The pattern core (1) is a ceramic dental prosthesis manufacturing method, characterized in that made of solid wax or synthetic resin material to be burned at a constant temperature.
The method of claim 1,
The ceramic raw material is a ceramic dental prosthesis manufacturing method characterized in that to fill the pattern (2) enamel raw material and dentin raw material in sequence.
In the tool is filled with a buried material forming a pattern for producing by pressing and sintering the dental prosthesis (D),
The main body 5 having a filling space 6 formed therein to allow the investment material to be filled therein, and at least one side wall surface of the filling space 6 of the main body 5 prevents the investment material from being rotated after being hardened. Flask for manufacturing a ceramic dental prosthesis, characterized in that the fixed surface (7) is formed.

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