JP7288655B2 - Manufacturing method of aesthetic mouthpiece - Google Patents

Description

TECHNICAL FIELD The present invention relates to a method of manufacturing an aesthetic mouthpiece that is used to cover the dentition to make the teeth look beautiful.

Many people are concerned about yellowing and dullness of their teeth, and in recent years, more and more people are whitening their teeth. However, whitening is a technique of decomposing and bleaching the colored components deposited on the enamel of teeth with a chemical. For this reason, when trying to whiten teeth by whitening in a short period of time, it is necessary to use a strong chemical, which increases the risk of developing tooth sensitivity. Therefore, it is common to divide the whitening treatment with a drug into a plurality of times while reducing the strength of the drug. Moreover, even if the teeth become white by whitening, the teeth will return to their original color if treatment with drugs is not performed regularly. As described above, whitening requires periodic treatment with a drug, which has the disadvantage that it places a heavy burden on the person who performs the treatment, and that it takes a certain amount of time to whiten the teeth.

Esthetic mouthpieces that are used by covering the dentition have been proposed so far, perhaps in view of such actual circumstances. For example, FIG. 1 of Patent Document 1 describes a dentition cover 10 made of an injection-molded article of acetal, which is a thermoplastic resin. This type of aesthetic mouthpiece has the advantage that once it is manufactured, white teeth can be easily obtained simply by performing the simple work of putting it over the dentition. are doing. In addition, the aesthetic mouthpiece also has the advantage that even if maintenance becomes necessary due to adhesion of dirt or the like to the mouthpiece, it can be easily maintained by removing it from the dentition.

JP 2008-054989 A

However, since the dentition cover (aesthetic mouthpiece) of Patent Document 1 is an injection-molded product, it is difficult not only to obtain a shape that fits the user's dentition, but also to keep the thickness small. Therefore, the dentition cover (esthetic mouthpiece) of Patent Document 1 has the disadvantage that the user tends to feel uncomfortable when wearing it, and the appearance tends to be unnatural when worn.

The present invention has been made in order to solve the above-mentioned problems. To provide an aesthetic mouthpiece which looks natural and is highly aesthetic.

The above issues are
A method for manufacturing an aesthetic mouthpiece, comprising:
a dental model making step of making a user's dental model;
a resin sheet covering step of covering the outer surface of the dental model with a thermoplastic resin sheet in a softened state;
a resin sheet suction step of sucking a thermoplastic resin sheet and bringing it into close contact with the outer surface of the dental model;
A resin sheet curing step of curing the thermoplastic resin sheet;
A modeling material fixing step of fixing the modeling material to the outer surface of the thermoplastic resin sheet;
The problem is solved by providing a method for manufacturing an aesthetic mouthpiece, characterized by passing through a modeling material shaping step of shaping a shaping material to shape the surface of the dentition.

In the manufacturing method of the aesthetic mouthpiece of the present invention, the step of sucking the softened thermoplastic resin sheet and bringing it into close contact with the outer surface of the dental model (the outer surface of the user's dentition) (resin sheet suction step) is provided. It is possible to obtain an aesthetic mouthpiece that easily fits the user's dentition. In addition to the fact that the base layer of the aesthetic mouthpiece is made of a thermoplastic resin sheet, the thermoplastic resin sheet is stretched by suction in the resin sheet suction process and becomes even thinner. The mouthpiece can also be made thinner. Therefore, it is possible to reduce the user's sense of incongruity when wearing the device, and to make the appearance of the device look natural when the device is worn.

In the manufacturing method of the aesthetic mouthpiece of the present invention, if the molding material fixing step can adhere the molding material to the outer surface of the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece), the specific method is particularly Not limited. In the forming material fixing step, the forming material may be directly adhered to the outer surface of the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece). However, if the adhesive strength between the molding material and the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece) is weak, the molding material will become the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece) as the aesthetic mouthpiece is used repeatedly. The outer surface of the base layer) may degrade the appearance of the aesthetic mouthpiece.

Therefore, in the manufacturing method of the aesthetic mouthpiece of the present invention,
The molding material fixation process,
A bonding pretreatment step of applying a bonding pretreatment to the outer surface of the thermoplastic resin sheet;
It is preferable to carry out the molding material adhesion step of bonding the molding material to the outer surface of the thermoplastic resin sheet using an adhesive.
This makes it possible to firmly adhere the modeling material to the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece).

In this case, the bonding pretreatment includes a treatment for mechanically increasing the bonding strength (roughening treatment, etc.) and a treatment for chemically increasing the bonding strength. In this regard, in the method of manufacturing the aesthetic mouthpiece of the present invention, the pretreatment for adhesion is to collide silica-coated alumina particles against the outer surface of the thermoplastic resin sheet to form a silicate layer on the thermoplastic resin sheet. , and it is preferable to use a silane coupling agent as the adhesive used in the process of adhering the modeling material. This makes it possible not only to mechanically increase the adhesive strength between the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece) and the adhesive, but also to increase it chemically. It becomes possible to adhere the building material more firmly to the base layer of the piece).

In the manufacturing method of the aesthetic mouthpiece of the present invention, the molding material is not particularly limited as long as it can exhibit the strength required for the aesthetic mouthpiece and can be used in the oral cavity. It is preferable to use a polymerizable dental composite resin. A photopolymerizable dental composite resin can easily change its shape until it is cured by irradiating it with light. For this reason, if a photopolymerization type dental composite resin is used as a modeling material, the modeling material fixing process and the modeling material shaping process can be easily performed.

In the manufacturing method of the aesthetic mouthpiece of the present invention, the thickness of the thermoplastic resin sheet is not particularly limited. However, as already mentioned, the manufacturing method of the aesthetic mouthpiece of the present invention has the advantage that the thermoplastic resin sheet (the base layer of the aesthetic mouthpiece) can be formed thin. For this reason, the thermoplastic resin sheet is preferably thin, and more specifically, the thickness before softening is preferably 2 mm or less. More preferably, the thickness of the thermoplastic resin sheet before softening is 1.5 mm or less. Since the thermoplastic resin sheet is stretched by the resin sheet suction process, it becomes even thinner (about 1/2) after the resin sheet suction process.

However, if the thermoplastic resin sheet is too thin, the base layer of the aesthetic mouthpiece will be too thin, and it may be difficult to ensure the strength required for the aesthetic mouthpiece. For this reason, the thermoplastic resin sheet preferably has a thickness of 0.5 mm or more before being softened. More preferably, the thickness of the thermoplastic resin sheet before softening is 0.7 mm or more.

As described above, according to the present invention, it is easy to fit the user's tooth row, it can be formed thinly, the discomfort of the user when worn is reduced, and the appearance is natural and aesthetic when worn. It becomes possible to provide high aesthetic mouthpieces.

1 is a perspective view showing how an aesthetic mouthpiece according to the present invention is attached to a user's dentition; FIG. FIG. 3 is a diagram showing a state in which the aesthetic mouthpiece according to the present invention is attached to the user's dentition, cut along a cross section perpendicular to the dentition direction. FIG. 2 is a flow diagram illustrating a method for manufacturing an aesthetic mouthpiece according to the present invention; FIG. 4 is a cross-sectional view showing the state after the resin sheet coating step in the manufacturing method of the aesthetic mouthpiece according to the present invention, cut along a plane perpendicular to the dentition direction of the dental arch model. FIG. 4 is a cross-sectional view showing the state after the resin sheet suction step in the manufacturing method of the aesthetic mouthpiece according to the present invention, cut along a plane perpendicular to the dentition direction of the dentition model. FIG. 4 is a cross-sectional view showing the state after the molding material fixing step in the manufacturing method of the aesthetic mouthpiece according to the present invention, cut along a plane perpendicular to the dentition direction of the dentition model.

A preferred embodiment of the method for manufacturing an aesthetic mouthpiece of the present invention will be described more specifically with reference to the drawings. In the following, the manufacturing method of the aesthetic mouthpiece of the present invention will be described by taking as an example the case of manufacturing an aesthetic mouthpiece (lower aesthetic mouthpiece) to be attached to the dentition on the lower jaw side. A description of the manufacturing method of the aesthetic mouthpiece (upper aesthetic mouthpiece) to be attached to the lateral dentition is omitted. However, the upper aesthetic mouthpiece can also be manufactured in a similar manner as the lower aesthetic mouthpiece.

1. Outline of the Invention FIG. 1 is a perspective view showing how an aesthetic mouthpiece 10 according to the present invention is attached to a user's dentition 50 . FIG. 2 is a diagram showing a state in which the aesthetic mouthpiece 10 according to the present invention is attached to a user's dentition 50, cut along a cross section perpendicular to the dentition direction. The present invention, as shown in FIG. 1, is intended to produce an aesthetic mouthpiece 10 for use over a user's dentition 50 .

The aesthetic mouthpiece 10 is composed of a tooth covering portion 10a covering the tooth row 50 and a gum covering portion 10b covering the gum 60. As shown in FIG. In this embodiment, as shown in FIG. 2, the tooth row covering portion 10a is formed in a "U"-shaped cross section (an inverted "U" shape in FIG. 2), and the tooth row 50 is inserted therein. By doing so, the aesthetic mouthpiece 10 can be worn while covering the row of teeth 50 . Hereinafter, a portion of the dentition covering portion 10a into which the user's dentition 50 is inserted may be referred to as a "dentition insertion portion". By forming the aesthetic mouthpiece 10 in such a form, the aesthetic mouthpiece 10 can be stabilized when worn.

When viewed in cross section (FIG. 2), the aesthetic mouthpiece 10 consists of a base layer portion 10c in contact with the outer surface of the dentition 50 and a surface layer portion 10d provided on the outer surface side of the base layer portion 10c. It is configured. The base layer portion 10c is formed of a thermoplastic resin sheet 11 and has a certain degree of elasticity. In addition, the surface layer portion 10d is formed of the modeling material 12 and serves as a portion for modeling the outer surface of the portion of the aesthetic mouthpiece 10 that is easily visible to others.

The modeling material 12 forming the surface layer portion 10d of the dentition covering portion 10a is colored white or a color close thereto (the color of beautiful teeth). Therefore, when the aesthetic mouthpiece 10 is attached to the dentition 50, yellowing and dullness of the dentition 50 are covered with the dentition covering portion 10a, and the user's teeth can be made to look white and beautiful. On the other hand, the modeling material 12 forming the surface layer portion 10d of the gum covering portion 10b is colored in the same color as the gum 60 or a color close thereto. However, as will be described later, when the thermoplastic resin sheet 11 forming the base layer portion 10c is colorless and transparent, the base layer portion 10c of the gum covering portion 10b may not be covered with the modeling material 12. . In this case, the gum-covering portion 10b becomes colorless and transparent, and the user's gums 60 can be seen through the gum-covering portion 10b.

FIG. 3 is a flow diagram illustrating a method for manufacturing an aesthetic mouthpiece according to the present invention. In the present invention, as shown in FIG. 3, through a dental model making process, a resin sheet covering process, a resin sheet suction process, a resin sheet hardening process, a modeling material fixing process, and a modeling material shaping process, The aesthetic mouthpiece 10 shown in FIGS. 1 and 2 is manufactured. Each step will be described in detail below.

2. Dental model manufacturing process The dental model manufacturing process is a process of manufacturing a user's dental model 70 (see FIG. 4 described later). The method of manufacturing the dental arch model 70 is not particularly limited as long as it has a shape that follows the user's dentition 50 (FIG. 1). , based on the three-dimensional shape of the tooth row 50 thereof. As a method of acquiring the three-dimensional shape of the user's dentition 50, there is a method of taking a mold of the user's dentition 50 using an impression material, and a method of taking a mold of the user's dentition 50 using a three-dimensional shape measuring device. and a method of measuring the three-dimensional shape of

In the former case (when a mold of the dentition 50 is taken using an impression material), molds of a plurality of teeth (for example, all teeth on the mandibular side) are usually taken together. Examples of the impression material include an alginate impression material, an agar impression material, a silicon impression material, and the like. A dental model forming material is poured into the recesses formed in the impression material following the three-dimensional shape of the user's tooth row 50, cured, and then the impression material is removed to form the user's dental model. 70 can be obtained. Although the dental model-forming material is not particularly limited, gypsum is usually used. Gypsum inevitably forms air bubbles. Therefore, if the dental arch model 70 is made of gypsum, there is an advantage that the resin sheet suction step, which will be described later, can be easily performed. Examples of gypsum include ordinary gypsum, anhydrite, and cemented gypsum.

On the other hand, in the latter case (when the three-dimensional shape of the dentition 50 is measured using a three-dimensional shape measuring device), a three-dimensional A user's dental model 70 can be obtained by moving a molding device such as a printer. Examples of the three-dimensional shape measuring device include a computer tomography device such as a micro X-ray CT device and a surface imaging device such as an intraoral camera. However, the computed tomography apparatus is large and expensive, and in addition, the micro X-ray CT apparatus and the like have the risk of being exposed to radiation. On the other hand, the surface imaging apparatus has the advantages of being smaller and less expensive than the computed tomography apparatus and having no risk of radiation exposure.

After completing the dental model preparation process, the resin sheet covering process is performed.

3. Resin Sheet Covering Step As shown in FIG. 4, the resin sheet covering step is a step of covering the outer surface of the dental model 70 prepared in the dental model preparing step with the softened thermoplastic resin sheet 11 . . FIG. 4 is a cross-sectional view showing a state after the resin sheet covering process is completed, cut along a plane perpendicular to the dentition direction of the dentition model 70 .

As already mentioned, the thermoplastic resin sheet 11 forms the base layer 10c (FIG. 2) of the aesthetic mouthpiece 10. As shown in FIG. The material of the thermoplastic resin sheet 11 is not particularly limited as long as it is formed by forming a sheet of thermoplastic resin. Examples of thermoplastic resins include polyethylene (PE), polypropylene (PP), polystyrene (PS), polyurethane (PU), and acrylic resin (PMMA). Considering strength and the like, polyurethane (PU) can be preferably used. Also in this embodiment, a sheet made of polyurethane is used as the thermoplastic resin sheet 11 .

The thermoplastic resin sheet 11 may be colored by kneading a pigment or the like. However, even if the thermoplastic resin sheet 11 is colored, the molding material 12 (FIG. 2) is fixed to the outer surface of the thermoplastic resin sheet 11 in the molding material fixing process described later, and the molding material in the thermoplastic resin sheet 11 is fixed. Since the portion where 12 is fixed is not visible, it is meaningless. In addition, as already described, when the gum covering portion 10b (Fig. 1) is made colorless and transparent, the user's own gums 60 (Fig. 1) become visible, and the thermoplastic resin sheet 11 (base layer portion 10c) , there is an advantage that it is not necessary to cover the portion forming the gingival covering portion 10b with the modeling material 12 (advantage that the gingival covering portion 10b can be formed only with the thermoplastic resin sheet 11). Therefore, the thermoplastic resin sheet 11 is preferably colorless and transparent.

As already mentioned, the thickness of the thermoplastic resin sheet 11 before softening is preferably in the range of 0.5 to 2 mm, more preferably in the range of 0.7 to 1.5 mm. As a result, the aesthetic mouthpiece 10 can be made to have the required strength and less uncomfortable feeling when worn by the user. In this embodiment, the thickness of the thermoplastic resin sheet 11 before softening is approximately 1 mm. Since the thermoplastic resin sheet 11 is stretched in a resin sheet suction step, which will be described later, after the aesthetic mouthpiece 10 is completed, the thickness is smaller than before softening.

After finishing the resin sheet covering process, the resin sheet suction process is performed.

4. Resin Sheet Suction Step As shown in FIG. 5, the resin sheet suction step is a step of sucking the thermoplastic resin sheet 11 and bringing it into close contact with the outer surface of the dental model 70 . FIG. 5 is a cross-sectional view showing a state after the resin sheet suction process is completed, cut along a plane perpendicular to the dentition direction of the dentition model 70 . By this resin sheet suction step, the thermoplastic resin sheet 11 forming the base layer 10c of the aesthetic mouthpiece 10 is brought into close contact with the outer surface of the dental model 70, and the resulting aesthetic mouthpiece 10 is placed on the user's teeth 50 ( 1).

The suction of the thermoplastic resin sheet 11 is performed from the lower side of the dental model 70 as indicated by the arrow A in FIG. In this embodiment, as already described, the dental model 70 is made of gypsum having air bubbles, so the thermoplastic resin sheet 11 is applied not only to the underside of the dental model 70 but also to the dental model 70 through the air bubbles of the dental model 70. Since the side is also attracted, the thermoplastic resin sheet 11 can be tightly adhered to the outer surface of the dental model 70 . By this resin sheet suction step, the thermoplastic resin sheet 11 is stretched about 1.5 to 2.5 times (generally about 2 times) of its original state, and the thickness is reduced to 2/5 to 2 of its original state. /3 times (usually about 1/2 times).

After the resin sheet suction process is finished, the resin sheet hardening process is performed.

5. Resin Sheet Curing Process The resin sheet curing process is a process of curing the thermoplastic resin sheet 11 . The softened thermoplastic resin sheet 11 can be hardened by cooling. The thermoplastic resin sheet 11 may be naturally cooled or artificially cooled using a cooler or the like.

After finishing the resin sheet curing process, the modeling material fixing process is performed.

6. Forming Material Fixing Step The forming material fixing step is, as shown in FIG. 6, a step of fixing the forming material 12 forming the surface layer portion 10d of the aesthetic mouthpiece 10 to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c). It has become. FIG. 6 is a cross-sectional view of the dental model 70 cut along a plane perpendicular to the dentition direction after the molding material fixing step.

The specific method of the forming material fixing step is not particularly limited as long as the forming material 12 can be fixed to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c). As described above, the forming material fixing step includes the adhesion pretreatment step and the forming material adhesion step.

6.1 Adhesion Pretreatment Step The adhesion pretreatment step is a step of applying pretreatment for adhesion to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c) shown in FIG. As a result, the molding material 12 (surface layer portion 10d) is applied to the thermoplastic resin sheet 11 (base layer portion 10c) so that the adhesive 13 is firmly adhered to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c). Strong adhesion is possible. Therefore, even if the aesthetic mouthpiece 10 is repeatedly used, the modeling material 12 (surface layer portion 10d) can be prevented from peeling off from the thermoplastic resin sheet 11 (base layer portion 10c).

As already mentioned, the pretreatment for adhesion includes a treatment for mechanically increasing the adhesive strength (roughening treatment, etc.) and a treatment for chemically increasing the adhesive strength. A silicate layer is formed on the thermoplastic resin sheet 11 (base layer portion 10c) by colliding silica-coated alumina particles against the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c). This type of bonding pretreatment is called "Locatech treatment". In the field of dentistry, although metals and ceramics are sometimes subjected to Locatech treatment, resins are rarely subjected to Locatech treatment. , is very novel.

After completing the bonding pretreatment process, the modeling material bonding process is performed.

6.2 Forming Material Bonding Step In the forming material bonding step, as shown in FIG. 6, the forming material 12 (surface layer portion 10d) is adhered to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c) using an adhesive 13. It is a process of gluing. Thereby, the modeling material 12 (surface layer portion 10d) can be fixed to the outer surface of the thermoplastic resin sheet 11 (base layer portion 10c).

The type of adhesive 13 is not particularly limited, and various bonding materials used in the dental field can be used as adhesive 13 . However, in this embodiment, Locatech treatment is performed as the pretreatment process for adhesion. This Locatec treatment is very effective when a silane coupling agent such as Espedil is used as the adhesive 13 . Therefore, Espedil (a silane coupling agent) is used as the adhesive 13 also in this embodiment. As a result, the integrity between the thermoplastic resin sheet 11 (base layer portion 10c) and the adhesive 13 can be further enhanced.

Also, the type of the modeling material 12 is not particularly limited, and various modeling materials used in the dental field can be used as the modeling material 12. For example, a photopolymerization type dental composite resin can be used as the modeling material 12. It is preferable to use as As a result, the modeling material 12 can be cured by irradiating the modeling material 12 with light, making it easier to apply (adhere) the modeling material 12 to the thermoplastic resin sheet 11 (base layer portion 10c). can. Examples of the photopolymerizable dental composite resin include "IPS Empress Direct" dental composite resin manufactured by Ivoclar Vivadent (Switzerland).

As already described, the modeling material 12 in the portion covering the dentition covering portion 10a (FIG. 2) is colored in a whitish color (the color of beautiful teeth), and the modeling material in the portion covering the gingival covering portion 10b (FIG. 2). 12 is colored in the color of gums (vermilion, etc.). The actual color of the modeling material 12 is appropriately determined according to the user's facial features and preferences. If the aesthetic mouthpiece 10 is intended to exhibit only the function of "making the user's teeth look beautiful", it does not need to be provided with the gingival covering portion 10b, and has only the dentition covering portion 10a. However, in addition to the dentition covering portion 10a, the gingival covering portion 10b is provided, and by covering both the dentition covering portion 10a and the gingival covering portion 10b with the molding material 12, the user's teeth are It is possible to make not only the color but also the color of the gums (gingiva) look beautiful. However, there is a case where the user's gums 60 (FIG. 2) are visible even when the aesthetic mouthpiece 10 is worn without covering the gum covering portion 10b (FIG. 2) with the modeling material 12. FIG.

When the modeling material 12 hardens, the modeling material adhesion step is completed, and the modeling material fixing step is also completed. At this time, the modeling material 12 (the surface layer portion 10d) is firmly adhered to the thermoplastic resin sheet 11 (the base layer portion 10c), and the aesthetic mouthpiece 10 is so hard that it hardly bends. ing. After finishing the molding material fixing process, the molding material shaping process is performed.

7. Modeling material shaping process The modeling material shaping process is a process of shaping the modeling material 12 . As a result, the shape of the outer surface of the aesthetic mouthpiece 10 can be made close to the outer shape of the user's actual dentition 50 (FIG. 1), and the appearance of the aesthetic mouthpiece 10 can be made more natural. can. Shaping of the modeling material 12 is usually performed by polishing the modeling material 12 using a dental drill or the like.

The modeling material molding step may be performed while the aesthetic mouthpiece 10 is attached to the dental model 70 or may be performed after the aesthetic mouthpiece 10 is removed from the dental model 70 . In addition, in the molding material molding step, after rough shaping is performed with the aesthetic mouthpiece 10 attached to the dental model 70 or removed from the dental model 70, the aesthetic mouthpiece 10 is placed by the user. In some cases, fine adjustment is performed by actually attaching to the tooth row 50 (FIG. 1).

In the modeling material molding step, the outer surface of the modeling material 12 may be shaped to follow the outer surface shape of the dental model 70. In the worst case, the bad alignment of the teeth and badly shaped gums are reproduced in the aesthetic mouthpiece 10 as they are. For this reason, the outer surface of the modeling material 12 is preferably molded into a shape that is more regular than the actual teeth and gums. As a result, it is possible to obtain the aesthetic mouthpiece 10 that can make not only the color of the user's teeth and gums but also the shape of the teeth and gums look beautiful.

In this way, the outer surface of the build material 12 can be shaped with some degree of freedom. As described above, the gum-covering portion 10b is colorless and transparent, and when the aesthetic mouthpiece 10 is attached to the dentition 50 (FIG. 2), the user's gums 60 (FIG. 2) can be seen through the gum-covering portion 10b. In this case, in the forming material fixing step, the forming material 12 is adhered only to the dentition covering portion 10a, and only shaping of the forming material 12 is performed.

However, if only the tooth-covering portion 10a is shaped (only the teeth are aligned and shaped neatly), an unnatural step occurs at the boundary between the tooth-covering portion 10a and the gum-covering portion 10b in the aesthetic mouthpiece 10. There is a risk of formation. For this reason, it is preferable to adhere the molding material 12 to both the dentition covering portion 10a and the gum covering portion 10b so that both are shaped. In this case, if the gingival covering portion 10b is shaped first, and then the dentition covering portion 10a is shaped, the above-mentioned steps are easily made inconspicuous, and the shaping work can be performed smoothly. Become. In addition, by shaping the gingival covering portion 10b first, the degree of freedom in the size and shape of the dentition covering portion 10a can be increased.

After finishing the molding material molding process, the manufacturing method of the aesthetic mouthpiece 10 of this embodiment is completed. The obtained aesthetic mouthpiece 10 can be easily fitted to the user's dentition 50, and can reduce the discomfort of the user when worn. In addition, the aesthetic mouthpiece 10 obtained has a natural appearance and high aesthetics when worn.

8. Others By the way, in the manufacturing method of the aesthetic mouthpiece 10 of the present invention, the thermoplastic resin sheet 11 forming the base layer portion 10c of the aesthetic mouthpiece 10 is sucked in the above resin sheet suction step to form the dental model 70. The dimensions and shape of the dental arch model 70 are not uniform when it is brought into close contact with the outer surface, and vary considerably from person to person. In addition, the stretching of the thermoplastic resin sheet 11 when sucking the thermoplastic resin sheet 11 also varies. For this reason, the thermoplastic resin sheet 11 that covers the dental arch model 70 in the resin sheet covering step should have a size that is sufficient. Therefore, the thermoplastic resin sheet 11 after the resin sheet suction step and the resin sheet hardening step has a surplus portion 11a that is not used for the aesthetic mouthpiece 10, as indicated by the broken line in FIG. Become. Therefore, it is necessary to cut off the surplus portion 11a before the aesthetic mouthpiece 10 is completed.

The timing of cutting off the surplus portion 11a is not particularly limited as long as it is after the surplus portion 11a is formed (after the resin sheet suction step is completed). In this embodiment, in the molding material molding step, the surplus portion 11a is cut off when the molding material 12 is shaped to form the general shape of the aesthetic mouthpiece 10. As shown in FIG.

REFERENCE SIGNS LIST 10 aesthetic mouthpiece 10a tooth covering part 10b gum covering part 10c base layer part 10d surface layer part 11 thermoplastic resin sheet 11a surplus part 12 modeling material 13 adhesive 50 tooth row 60 gum 70 tooth row model

Claims (4)

A method for manufacturing an aesthetic mouthpiece that covers and conceals a user's teeth to make the teeth look white, comprising :
a dental model producing step of producing a dental model having a shape that follows the user's dentition in a state containing air bubbles ;
a resin sheet covering step of directly covering the outer surface of the dental model with a softened thermoplastic resin sheet having a thickness of 2 mm or less ;
By sucking the thermoplastic resin sheet toward the dental model through the lower space of the thermoplastic resin sheet and the air bubbles , the thermoplastic resin sheet is thinly stretched to a thickness of less than 1 mm, and the dental model is formed. A resin sheet suction step to be brought into close contact with the outer surface;
a resin sheet curing step of curing the thermoplastic resin sheet; and a modeling material fixing step of fixing the whitish modeling material to the outer surface of the thermoplastic resin sheet;
A method of manufacturing an aesthetic mouthpiece, characterized by passing through a modeling material shaping step of shaping a shaping material to shape a surface of a row of teeth.
The molding material fixing process is
A bonding pretreatment step of applying a bonding pretreatment to the outer surface of the thermoplastic resin sheet;
2. The method of manufacturing an aesthetic mouthpiece according to claim 1, further comprising a forming material adhering step of adhering the forming material to the outer surface of the thermoplastic resin sheet using an adhesive.
the bonding pretreatment comprises impinging silica-coated alumina particles against the outer surface of the thermoplastic sheet to form a silicate layer on the thermoplastic sheet;
3. The method for manufacturing an aesthetic mouthpiece according to claim 2, wherein a silane coupling agent is used as an adhesive used in the molding material bonding step.
4. The method for producing an aesthetic mouthpiece according to any one of claims 1 to 3, wherein a photopolymerization type dental composite resin is used as a molding material.

Images