KR20080042071A - Dental Model Multi-Layered Teeth - Google Patents

Abstract

The present invention provides a multi-layered dental model for dental practice having a crown portion that is not easily damaged (broken or broken) even by cutting practice such as crown restoration practice while reproducing a multilayer structure similar to natural teeth. In the dental practice multi-layer model tooth composed of a crown portion 1 and a root portion 2 formed by artificially imitating an enamel layer 3 serving as a surface layer and an dentin layer 4 serving as an inner layer, the enamel layer is modeled. It extends from the tip of the tooth beyond the alveolar line 6 toward the root portion, and is formed integrally so that at least the surface layer 5 of the root portion adjacent to the crown portion and the root portion of the root portion is covered by the enamel layer of the crown portion. have. At this time, the thickness of the enamel layer covering the root surface of the tooth line is preferably 0.02 mm to 0.3 mm.

Description

MULTILAYERED MODEL TOOTH FOR DENTAL TRAINING}

The present invention relates to a multilayer model tooth for dental practice.

Background Art Conventionally, dental teeth for dental practice have been widely used in education fields such as dental colleges and dental engineering schools, and there are some described in the following patent documents, for example.

Patent Document 1: Japanese Patent Application Laid-Open No. H05-241499

Patent Document 2: Japanese Patent Application Laid-Open No. H05-241500

The multi-layered model tooth for dental practice described in Patent Document 1 is a model tooth having a cutting feeling close to that of a natural tooth in which the material of the crown surface layer and the root portion is changed. In addition, the multi-layered model tooth for dental practice described in Patent Document 2 is a model tooth having a layered structure closer to a natural tooth in which the materials of the crown surface layer and the root surface layer are changed.

These model teeth have a multilayered structure similar to that of natural teeth and reproduce the thickness of natural teeth even in the enamel layer of the crown part. Therefore, the thickness of the crown enamel layer near the alveolar line is very thin, about 0.1 mm to 0.5 mm, and the enamel layer is further reduced in thickness as it approaches the alveolar line, and eventually disappears from the alveolar line. By reproducing such a multi-layered structure of natural teeth, the crown enamel layer near the alveolar line becomes thin and sharp wedge shape having the alveolar line as a tip. The cutting practice of removing the vaginal layer has a problem in that the enamel layer near the dental ridgeline is easily damaged (teared, broken) and falls off.

Challenges the invention seeks to solve

The present invention provides a multi-layered model tooth for dental practice having a crown portion that is not easily damaged by cutting practice such as a dental restoration practice while reproducing a multilayered structure similar to a natural tooth.

Means to solve the problem

That is, in the dental practice multi-layered model tooth of the present invention, in the dental practice multi-layered model tooth consisting of a crown portion and a root portion formed by artificially imitating an enamel layer serving as a surface layer and an dentin layer serving as an inner layer, the enamel layer is formed from the tip of the model tooth. It extends to the root portion side beyond the alveolar line, and is formed integrally so that at least the surface adjacent to the crown portion and the surface of the root portion in the vicinity thereof are covered by the enamel layer of the crown portion.

The present invention is also characterized in that, in the dental multi-layer model tooth having the above-mentioned characteristics, the thickness of the enamel layer covering the root surface of the tooth line is 0.02 mm to 0.3 mm.

Effects of the Invention

In the multilayer dental model for dental practice of the present invention, the enamel layer extends from the tip of the model tooth beyond the alveolar line to the root portion, and at least the surface adjacent to the crown portion and the surface of the root portion in the vicinity thereof are covered by the enamel layer. Because of the structure formed by the structure, when the practice of cutting the crown enamel layer near the cervical portion is performed, the damage to the enamel layer can be effectively prevented, and good practice can be performed.

Implement the invention  Best form for

The multi-layered dental model for dental practice of the present invention comprises a crown portion formed by artificially imitating an enamel layer serving as a surface layer and an dentin layer serving as an inner layer, and a root portion integrated with the crown portion.

The crown part has a multi-layered structure having an enamel layer on the surface and an dentin layer inside, like human natural teeth. The thickness of the enamel layer is thickest at the tip of the model tooth and becomes thinner as it approaches the root portion, and the thickness of the enamel layer near the alveolar line, which is the boundary between the root and the crown, is very thin, about 0.02 to 0.3 mm.

The thinnest enamel layer in the vicinity of the periodontal line forms a portion adjacent to the crown portion in the root portion and a root surface layer in the vicinity thereof. At this time, the thinnest enamel layer can be extended to the root portion side while maintaining the thickness and extending to the root portion side, or gently increasing the thickness, or gently reducing the thickness. If the thickness of the surface layer of the root portion is too thin, the effect of preventing damage due to cutting of the crown enamel layer is lost, and if it is too thick, it becomes a multilayer structure different from natural teeth. Therefore, although the thickness and width are suitably selected by the desired model tooth shape, the thickness of a surface layer is about 0.02 mm-0.3 mm, Preferably it is about 0.05 mm-0.2 mm. Here, the part adjacent to the crown part of a root part, and its vicinity refer to the range from the tooth line of a root part to about 5 mm from a root line direction to a root end direction. If the width is too narrow, the crown enamel layer immediately near the alveolar line is likely to be damaged. Therefore, the width of the surface layer of the root portion is preferably 0.5 mm or more, and more preferably 1 mm or more. The surface layer of the root portion is preferably formed over almost the entire circumference of the root portion, but the surface layer of the root portion may be partially formed.

The enamel layer and the dentin layer forming the crown part may be formed of different materials or the same material, but the enamel layer may be harder than the dentin material in that the cutting feeling is closer to that of natural teeth. It is preferable to use.

Although the hardness of the enamel layer depends on the material used, for example, when the resin material is used as a reference, the hardness is about 110 to 130 on a Rockwell M scale (according to JIS-K6911), and the hardness of the dentin layer is about 70 to 110. It is preferable to use a degree. In addition, by setting the hardness difference between the enamel layer and the dentin layer to 10 to 60, preferably 20 to 50, the above-mentioned hardness makes it possible to obtain a cutting feeling closer to natural teeth.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated using drawing. Fig. 1A is a view showing an example of an external appearance of a dental dental model tooth of the present invention, and Fig. 1B is a cross-sectional view showing its internal structure. 2A is a diagram showing an example of the appearance of a conventional dental training model tooth, and 2B is a sectional view showing the internal structure thereof.

As shown in FIG. 1A and FIG. 1B, the dental model multilayer dental tooth of the present invention has a crown part 1 and a tooth root formed by artificially imitating an enamel layer 3 serving as a surface layer and an dentin layer 4 serving as an inner layer. The enamel layer 3 extends from the tip of the model tooth to the root portion 2 side beyond the alveolar line 6, at least in the vicinity of the crown portion 1 and the root portion in the vicinity thereof ( The surface of 2) is covered by the enamel layer 3 of the crown part 2. In the present invention, the thickness of the enamel layer (surface layer 5 of the root portion) covering the root surface at the position of the tooth line 6 is 0.02 mm to 0.3 mm.

In the crown 1, fine unevenness of the centerline average roughness of Ra0.1 micrometer, less than 10 micrometers, preferably 0.15 micrometer or more, and about 5 micrometers is formed on the surface thereof so that the laser beam can reflect the laser beam. Can be.

In addition, the surface portion may be formed with holes that mimic carious pit or cavity, or discolored portions due to deposition, and deposits that mimic tartar may be formed.

In addition, at the interface between the enamel layer 3 and the dentin layer 4, it is possible to provide a discoloration portion that mimics carious pit, and a pulp cavity can be formed inside the dentin. And the crown part 1 is connected to the root part 2, and it can be installed in a predetermined | prescribed jaw model.

The root portion 2 integrated with the crown portion 1 is not particularly limited in structure other than the adjacent portion of the crown portion and the surface layer in the vicinity thereof, and may be a single layer structure, a multilayer structure, or a natural tooth. It may be a structure having a plurality of closer tooth roots, or a short root structure that simplifies natural teeth. In addition, a pulp cavity or root canal may be formed to mimic a natural tooth. In addition, it is also possible to provide a layer imitating a cementitious layer on the surface layer other than the surface layer adjacent to the crown portion and the surface layer in the vicinity thereof.

Generally, a well-known thing can be used as a raw material of this model tooth, In the case of the enamel layer of a crown part, for example, ceramics, such as porcelain or acrylic, polystyrene, polycarbonate, polyester, thermoplastics, melamine, urea, unsaturated Synthetic resin materials, such as thermosetting, such as polyester, a phenol, and epoxy, polymerizable monomer materials, such as a trimethylol propane trimethacrylate and dimethacryloxyethyl trimethylhexamethylene diurethane, and also these main raw materials are glass fiber, carbon Various fillers such as organic, inorganic reinforcing fibers such as fibers, pulp, synthetic resin fibers, talc, silica, mica, calcium carbonate, barium sulfate, alumina, glass powder, colorants such as pigments and dyes, or weathering agents or antistatic agents The thing which added various additives, such as these, can be used.

Moreover, the above-mentioned various materials can also be used for the material which forms the dentin layer and a root part of a crown part.

Here, in order to obtain a model tooth having a cutting feeling closer to that of natural teeth, a hard material in which an enamel layer of the crown is filled with an inorganic material such as silica and the above polymerizable monomer material is used as a material of the dentin layer and the root portion. It is preferable to use a material with a relatively low hardness that contains acryl, melamine, epoxy, or the like as a main raw material.

The color tone of these materials is not particularly limited, but is appropriately colored with a desired color tone. The color tone method is not specifically limited, It can adjust to the desired color tone by combining various well-known pigment and dye suitably.

As a manufacturing method of such a model tooth, although it selects suitably according to the material used, For example, when synthetic resin is a main raw material, well-known methods, such as general injection molding and press molding, can be applied.

Here, the manufacturing method by the general injection molding method is demonstrated.

First, in the injection molding for forming the shape in which the dentin layer and the root portion are integrated, the raw material serving as the dentin layer and the root portion is filled and solidified, and a molded article in which the dentin layer and the root portion is integrated is created. Subsequently, the molded article is mounted at a predetermined position in the injection molding for molding the enameled layer shape, then the enameled material is filled into the mold, and the enameled layer of the molded article outer layer consisting of the dentin layer and the root portion is laminated and integrated. At this time, the surface layer is formed by forming the root portion shape of the molded article mounted on the mold for molding the enamel layer, so that the surface layer of the root portion is formed simultaneously with the filling of the enamel layer.

Although the multilayered model tooth for dental practice of this invention can be easily manufactured by such a method, this invention is not limited to this method, It is also possible to form an enamel layer first, and then to integrate the dentin layer of a crown part and a root part. Further, after the dentin layer and enamel layer of the crown are formed by the injection molding method or the like, the root portions separately formed are joined together, or the enamel layer, dentin layer, and root portion are scraped off from the blocks of the respective materials. It is also possible to integrate and join.

Here, although description was made based on the drawing of the incisor, the multilayered model tooth for dental practice of the present invention is not limited to the incisor, and the same effect can be obtained even in the molars.

Fig. 1A is a view showing an example of an external appearance of a dental dental model tooth of the present invention, and Fig. 1B is a cross-sectional view showing its internal structure.

Fig. 2A is a view showing an example of the appearance of a conventional dental training model tooth, and Fig. 2B is a sectional view showing the internal structure thereof.

<< description of reference number >>

One; Crown

2; Root

3; Enamel layer

4; Dentin

5; Surface layer of the root

6: alveolar gland

[Example 1]

What was colored in a predetermined color tone of the acrylic resin was filled and solidified in a mold having a shape after the enamel layer, the dentin layer and the root portion were integrated to obtain a molded article in which the dentin layer and the root portion were integrated. The molded article which cut out the part used as the enamel layer of the obtained molded object and the part used as the surface layer of a root part was cut in the above-mentioned metal mold again, and the material which mix | blended silica with the dimethacryloxyethyl trimethyl hexamethylene urethane used as an enamel layer was prepared. By filling and assimilation, a multi-layered model tooth for dental practice in which the dentin layer, the root portion and the enamel layer were integrated was obtained. At this time, the thickness of the surface layer of the root portion was 0.1 mm and the width (distance from the tooth diameter line to the root end direction) was about 2 mm.

As a result of the practice of cutting the enamel layer of the crown portion near the cervical region using this multi-layered tooth for dental practice, it was possible to perform good practice without damaging the enamel layer.

EXAMPLE 2

Except that the surface layer thickness of the root portion was set to 0.05 mm, the cutting practice of the crown enamel layer near the cervical region was performed using a multi-layered model tooth for dental practice similarly to Example 1, whereby a good practice was performed without damage to the enamel layer. It was possible.

[Comparative Example 1]

As a result of performing a cutting practice of the crown enamel layer near the cervical region, using a conventional dental model multilayer dental tooth having the structure shown in FIGS. 2A and 2B prepared in the same manner as in Example 1 except that the surface layer was not formed on the root portion. In part, damage to the enamel layer was observed, and good practice could not be performed.

The multi-layered model tooth for dental practice of the present invention has a structure capable of preventing damage to the enamel layer in the cutting practice of the crown enamel layer near the cervical portion, and is also useful for performing the cutting practice.

Claims (2)

In the dental model multilayer dental model comprising a crown portion and a root portion formed by artificially imitating an enamel layer serving as a surface layer and an dentin layer serving as an inner layer, The enamel layer, It extends from the model tooth tip to the root side beyond the alveolar line, A multi-layered dental model for dental practice, characterized in that at least the surface adjacent to the crown portion and the surface of the root portion near the crown portion are integrally covered with the enamel layer of the crown portion. The method of claim 1, The thickness of the enamel layer covering the root surface of the tooth line is 0.02 mm to 0.3 mm.

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