JP2002224144A - Polyethylene dental prosthetic material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a soft dental prosthetic plate material having elasticity and plasticity and additionally sanitariness, comfortableness, safety, durability, and an aesthetic property from a hard dental prosthetic plate material that has been used, in a dental prosthesis having a plate, local plate and full plate dental prostheses and a jaw and mouth protector such as a night guard, a bite plane, mouth piece and a dental plate corrector, or the like. SOLUTION: An elastic and plastic thermoplastic soft resin (high pressure method (low density) polyethylene) whose processing temperature is 70 to 250 deg.C or isotactic polypropylene is heated and softened, and formed by injection molding, compression molding, transfer molding, or the like. A local plate dental prosthesis made of a thermoplastic hard or soft resin is very aesthetic because a metal spring is invisible.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a dental prosthesis, a dental prosthesis (local denture and full denture), a night guard, a bite plane, a mouthpiece, a jaw and mouth protection device, and a dental device. The present invention relates to a denture base material having elasticity and plasticity for a floor orthosis.

[0002]

2. Description of the Related Art Conventionally, acrylic resin, polycarbonate, polysulfone, and polyethersulfone have been used as denture base materials. However, these resins are hard denture base materials.

[0003] Because of the hard denture base material, a metal clasp (metal spring) (FIG. 6) is used for the denture to resist the attachment / detachment of the denture. .

[0004] Therefore, aesthetics are impaired, and further, the flow of saliva, food residue, and the like is inhibited by the clasp (FIG. 7), and biocompatibility such as metal allergy is impaired.

[0005] Furthermore, because of the hard denture base material, it stimulates the mucous membrane of the denture mucosa in the oral cavity, causing absorption of the mucous membrane and alveolar bone, causing pain and other symptoms, making the denture incompatible and unsatisfactory. As a result, a comfortable eating habit may be hindered.

For this reason, silicone or vinyl is used as a cushioning material (FIG. 8) on the mucous surface of the denture as a lining on the mucosal surface of the hard resin denture base. However, deterioration, discoloration, deterioration and multi-holes occur in the oral cavity. Due to the quality material, there are drawbacks such as easy propagation of bacteria and complicated operation.

Acrylic resins, polycarbonates, polysulfones, polyethersulfones, and the like are not currently used in dishes and the like due to the problem of elution of environmental hormones.

Conventionally used acrylic resins, polycarbonates, polysulfones and polyethersulfones are not satisfactory denture base materials in terms of hygiene, comfort, stability, durability and aesthetics.

In the case of using a conventional hard material which is not elastic and plastic, in the case of a partial denture,
The denture attaching / detaching direction forms a gap between the remaining tooth and the denture base. In other words, the lateral extent cannot extend beyond the survey line, which is the highest point of the adjacent remaining tooth, to the remaining tooth side, and its width is limited by the survey line of the remaining tooth. A gap is formed between the undercut portion of the remaining tooth and the denture base that becomes thinner toward the bottom, and this forms a large under pocket together with the clasp and serves as a stagnant space for food residue. This gap, called the dead space, is located below the survey line on the buccolingual surface adjacent to the remaining teeth, makes it easier for plaque to adhere, and destroys the periodontal tissue of the remaining teeth, , Gingival undercut (Fig. 9) or
Engagement and close contact with the under-zone portion, a dead space is formed, and there is a portion where food residue stagnates during a meal, so that a meal cannot be enjoyed comfortably.

[0010]

The rigidity conventionally used in dentures, local dentures, full dentures, jaw and mouth protection devices such as night guards, bite planes, mouthpieces, etc., and dental bed orthodontics devices. From denture base materials, elastic and plastic soft denture base materials, and more hygienic,
An object of the present invention is to provide a soft denture base material having comfort, stability, durability, and aesthetics.

[0011]

DISCLOSURE OF THE INVENTION The present invention has been made to improve the above circumstances, and has been made by using a thermoplastic soft resin (high pressure method [low density] polyethylene) (ethylene CH2 = CH).
By using 2), hygiene, comfort, stability, durability, aesthetics with dentures (local dentures and full dentures), or night guards, bite planes, mouthpieces, etc. A dental soft resin material used for a tooth device for a jaw / oral protection device and a dental orthodontic device.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention has been studied diligently to achieve the above object. As a result, the use of a soft resin makes it possible to provide a denture with excellent hygiene, comfort, stability and durability. In addition, the manufacturing process of the tooth device has been simplified.

The main resin is a high-pressure (low-density) polyethylene composition, and the low-pressure (high-density) polyethylene composition is a commercially available product (Asahi Kasei, Idemitsu, Mitsui, Nippon Polychem, etc.).

Here, as the soft resin, a material conventionally used in the production of tableware containers and the like, for example, JIS standard (high pressure method [low density] polyethylene) is used. It contains a filler, other pigments and dyes for coloring in gum color.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to manufacture such a denture having a denture and a device for a tooth, a wax denture is buried in a denture flask, gypsum is hardened, wax is flown, a separating material is applied, and the wax is removed. In the waxed space, the temperature of the sulfone furnace (FIG. 10) manufactured by High Dental Service Co., Ltd. was set to 200 ° C., and the resin was softened in 10 minutes. After that, 60
In a denture flask preheated in an oven at ~ 80 ° C, a hot plastic resin and high-pressure (low-density) polyethylene were injection-molded with a sulfone jet 2000 (Fig. 11) as a result of intensive studies. A denture and a tooth device were obtained. As a device for softening resin and a device for injection molding, those of other companies can be used.

The heating softening charging condition may be any temperature as long as it is heated to a temperature at which the high pressure method (low density) polyethylene composition softens, and is not particularly limited.
C. or lower, preferably 70-250.degree.
It is in the range of 00 ° C. Although the cooling time after filling is not limited, it is usually preferably 30 to 120 minutes, particularly preferably 30 to 90 minutes.

[0017]

According to the present invention, a high-pressure method (low-density) polyethylene composition is used, and a soft resin denture and a device for soft resin teeth are simplified by using a dental injector (FIGS. 11 and 12). be able to.

In addition, in the case of a denture having a middle hardness between a jaw / oral mucosa and an artificial tooth and a property of a soft material having elasticity and plasticity, the jaw / oral mucosa is subjected to a load due to occlusal or the like. The soft resin (high-pressure [low-density] polyethylene) is located as a denture base between the elastic jaw and oral mucosa and the hard artificial teeth, so the irritation given to the jaw and oral mucosa is relaxed. Mucosal subsidence, and alveolar bone resorption,
Further, the burden on pain sites such as bone bulges and flavi gum (soft mucosa) can be reduced.

Furthermore, since the soft resin is a material having characteristics excellent in hygiene, comfort, stability, and durability, it can be used for a long time under severe environment and use conditions in the oral cavity. It can overcome dentures.

The soft resin (high-pressure method [low-density] polyethylene) does not have a disadvantage that a solvent such as an environmental hormone is eluted.

As a device for soft resin teeth, a high-pressure (low-density) polyethylene composition can be selected, and as a hard resin, a low-pressure (high-density) polyethylene composition can be selected. Also,
Both intermediate materials can also be selectively used and manufactured according to the requirements of the case.

Since the high-pressure method (low-density) polyethylene has the characteristics of plasticity and elasticity, it engages and adheres to the undercut portion or underzone portion of the tooth or gingiva, and resists the attachment and detachment of the denture. An engaging portion to be locked can be provided, and the dead space can be reduced.

The dental device of the present invention is configured as a denture with denture (local denture and full denture), a jaw / oral protection device such as a night guard, a bite plane, a mouthpiece, and a dental orthodontic device. be able to.

The above-described tooth device can be made without using a metal clasp (spring) as in the prior art because of the plasticity and elasticity of high-pressure (low-density) polyethylene.

Therefore, when no metal clasp is used, no metal is used, so that resources can be reduced and the manufacturing cost is very low.

Further, the aesthetics are impaired.

FIG. 1A does not prevent clasps from obstructing the flow of saliva, food residue and the like, and does not impair biocompatibility such as metal allergy.

Further, in the case of the conventional partial denture, the direction of attachment / detachment of the denture is such that a dead space is formed between the remaining tooth and the denture base.
High-pressure method (low-density) Since it is a material with the characteristics of plasticity and elasticity of polyethylene, it engages and adheres to the undercut or underzone of the teeth or gingiva, and reduces the possibility of dead space and reduces meals There is no stagnation of food residue inside, so you can enjoy your diet comfortably.

[Brief description of the drawings]

────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] May 2, 2001 (2001.5.2)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Polyethylene denture material

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a dental prosthesis having a denture (local denture and full denture) or a jaw / mouth protection device such as a night guard, a bite plane, a mouthpiece, and an artificial tooth. The present invention relates to a dental orthodontic device, a denture material such as an artificial tooth.

[0002]

2. Description of the Related Art Conventionally, acrylic resin, polycarbonate, polysulfone, and polyethersulfone have been used as a denture base and artificial tooth material. But,
These resins are all hard denture base materials.

[0003] Since a hard denture base material is used, a denture is made of a metal clasp (metal spring) (Fig. 6) to resist the attachment and detachment of the denture and to maintain it. Lack of precision molding.

[0004] Therefore, aesthetics are impaired, and further, the flow of saliva, food residue, and the like is inhibited by the clasp (FIG. 7), and biocompatibility such as metal allergy is impaired.

[0005] Furthermore, when a hard denture base material is worn in the oral cavity, it stimulates the jaw mucosa of the mucous surface of the denture, causing absorption of the mucous membrane and alveolar bone, causing symptoms such as pain, making the denture incompatible and unsatisfactory. As a result, a comfortable eating habit may be hindered.

For this reason, silicone or vinyl is used as a cushioning material (FIG. 8) on the mucous surface of the denture as a lining on the mucosal surface of the hard resin denture base. However, deterioration, discoloration, deterioration and multi-holes occur in the oral cavity. Due to the quality material, there are drawbacks such as easy propagation of bacteria and complicated operation.

Acrylic resins, polycarbonates, polysulfones, polyethersulfones, and the like are not currently used in dishes and the like due to the problem of elution of environmental hormones.

Conventionally used acrylic resins, polycarbonates, polysulfones and polyethersulfones are not satisfactory denture base materials in terms of hygiene, comfort, stability, durability and aesthetics.

In the case of using a conventional hard material that does not have elasticity, in the case of a partial denture, the denture attachment / detachment direction forms a large gap between the remaining tooth and the denture base. In other words, the lateral extent cannot extend beyond the survey line, which is the highest point of the adjacent remaining tooth, to the remaining tooth side, and its width is limited by the survey line of the remaining tooth. A gap is formed between the undercut portion of the remaining tooth and the denture base that becomes thinner toward the bottom, and this forms a large under pocket together with the clasp and serves as a stagnant space for food residue. This gap, called the dead space, is located below the survey line on the buccolingual surface adjacent to the remaining teeth, makes it easier for plaque to adhere, and destroys the periodontal tissue of the remaining teeth, In addition, the undercut portion of the gingiva (FIG. 9) or the underzone portion is engaged with and closely adhered to, and a dead space is formed, so that a portion where food residue stagnates during a meal is formed.

[0010]

[Problems to be solved by the present invention] Conventionally, in dentures, local dentures and full dentures, as well as in jaw and mouth protection devices such as night guards, bite planes, mouthpieces, dental floor orthotics, and artificial teeth, etc. From the hard denture materials used, to provide soft or hard denture base materials with elasticity, soft denture materials with elasticity, sanitary, comfort, stability, durability, aesthetics and depending on the case. Aim.

[0011]

DISCLOSURE OF THE INVENTION The present invention has been made to improve the above circumstances, and is made of a thermoplastic, soft or hard resin (high pressure method [low density] polyethylene) (low pressure method [high density] polyethylene). By using (ethylene CH ₂ ＣＨCH ₂ ), hygienic, comfortable, stable, durable, and esthetic dentures (local dentures and all dentures), or night guards, bites Plain, mouthpiece,
Dental soft / hard resin materials used for teeth devices for jaw / oral protection devices such as artificial teeth and dental floor orthodontic devices.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention has been studied diligently to achieve the above-mentioned object. As a result, the use of soft and hard resins makes it possible to provide a floor with excellent hygiene, comfort, stability and durability. It has also succeeded in simplifying the manufacturing process of dentures and tooth devices.

The main resin is a high-pressure (low-density) polyethylene composition, and the low-pressure (high-density) polyethylene composition is a commercially available product (Asahi Kasei, Idemitsu, Mitsui, Nippon Polychem, etc.).

Here, as the soft / hard resin, a material conventionally used for manufacturing tableware, such as JIS, is used.
Use the standard (high-pressure method [low-density] polyethylene) and (low-pressure method [high-density] polyethylene) and, if necessary, add plasticizers, fillers, and other pigments and dyes for coloring gingiva. It is blended.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the case of manufacturing such a denture having a denture and a device for teeth, a wax denture is buried in gypsum in a denture flask, hardened with gypsum, wax is flown, and a separating material is applied. In the waxed space, the temperature of the sulfone furnace (FIG. 10) manufactured by High Dental Service Co., Ltd. was set to 200 ° C., and the resin was softened and cured in 10 minutes. Then, a thermoplastic resin and a high-pressure method (low-density) polyethylene (low-pressure method [high-density] polyethylene) were introduced into a denture flask preliminarily heated in an oven at 60 to 100 ° C. by a sulfone jet 2000 type (FIG. 11). As a result of intensive studies by injection molding, a denture with a denture and a device for teeth were obtained. It should be noted that a device of another company can be used as the softening device and the injection molding device.

In addition, as a method for charging a thermoplastic resin, it is also possible to soften a conventionally used denture flask with an electric furnace or the like and to compression-mold the doughed resin into the flask.

The heating softening / curing filling conditions may be such that the high pressure method (low density) polyethylene and the (low pressure method [high density] polyethylene) composition are heated to a temperature at which the composition softens and hardens.
Although not particularly limited, usually 250 ° C. or less,
(Preferably 70 to 250 ° C), particularly 100 to 200 ° C. In addition, the cooling time after filling is not limited, but it is usually preferably 30 to 120 minutes, particularly preferably 10 to 90 minutes.

[0019]

[Effect of the Invention] The present invention uses a high-pressure (low-density) polyethylene and a low-pressure (high-density) polyethylene composition to inject a soft / hard resin denture and a soft / hard resin tooth device for dental use. It can be obtained in a simplified manner with a vessel (FIGS. 11 and 12).

Further, in a denture with a bed, the elasticity of a soft material having an intermediate hardness between the jaw / oral mucosa and the artificial tooth and having elasticity, when the jaw / oral mucosa is subjected to a load due to occlusal or the like, increases elasticity. The soft resin (high-pressure method [low-density] polyethylene) is located as a denture base between the provided jaw and oral mucosa and the hard artificial teeth, so the irritation applied to the jaw and oral mucosa is moderated and the mucous membrane subsidence , And alveolar bone resorption,
The burden on pain sites such as bone ridges and flavi-gum (soft mucosa) can be reduced.

Further, since the soft and hard resin is a material having characteristics excellent in hygiene, comfort, stability and durability,
It can overcome the conventional denture which can be used for a long period of time under severe environment and use conditions in the oral cavity.

Soft and hard resins (high-pressure method (low-density) polyethylene) and low-pressure method (high-density) polyethylene do not have the disadvantage that solvents such as environmental hormones are eluted.

As a device for soft resin teeth, a high-pressure (low-density) polyethylene composition can be selected, and as a hard resin, a low-pressure (high-density) polyethylene composition can be selected. Also,
Both intermediate materials can be selectively used and manufactured depending on the condition of the case.

Since it has the characteristics of plasticity and elasticity of high-pressure method (low-density) polyethylene, it engages and adheres to the undercut or underzone of teeth or gingiva, and resists the attachment and detachment of dentures. An engaging portion to be locked can be provided, and the dead space can be reduced.

The tooth device of the present invention includes a denture (local denture and full denture), a jaw / oral protection device such as a night guard, a bite plane, a mouthpiece, a dental orthodontic device, and an artificial tooth. Can be configured as

Due to the elastic properties of high-pressure (low-density) polyethylene, the above-described tooth device can be used without using a metallic clasp (spring) as in the prior art.

Therefore, when no metal clasp is used, no metal is used, so that work efficiency and resources can be reduced, and the production cost is very low.

Further, the aesthetics are impaired.

FIG. 1A does not prevent clasps from obstructing the flow of saliva, food residue and the like, and does not impair biocompatibility such as metal allergy.

Furthermore, in the case of the conventional partial dentures, the direction of attachment and detachment of the denture causes a dead space between the remaining tooth and the denture base.
High-pressure method (low-density) Because it is a material with the elastic characteristics of polyethylene, it engages and adheres to the undercut or underzone of the teeth or gingiva, reducing the possibility of dead space, and reduces food residue during meals. Because there is no stagnation, you can enjoy your diet comfortably.

[Brief description of the drawings]

FIG. 1 Local denture made of thermoplastic soft and hard resin (very aesthetic because no metal spring is visible in the appearance)

FIG. 1A is a partial denture of a resin conventionally used (a metal spring is visible in the external appearance, so the aesthetic is very poor).

[Fig. 2] The appearance of both dentures made of thermoplastic soft and hard resins is the same as that of conventional resins.

FIG. 3 is a jaw / mouth protection device such as a night guard, a bite plane, and a mouthpiece.

FIG. 4 is a dental floor orthodontic appliance.

FIG. 5 is a local denture of a thermoplastic or soft resin having an engaging portion which is engaged with and engaged with an undercut portion or an underzone portion of a tooth or a gum. FIG. 5A is a local denture with a buccal side view. FIG. 5B is a local denture with an occlusal surface view.

FIG. 6 shows a partial denture in which a metal clasp (metal spring) is used for the denture to resist attachment and detachment of the denture, and to maintain and hold the denture. It has a complicated structure, and it is complicated in terms of hygiene and production.
In addition, a dead space is always created.

FIG. 7 shows a difference in flow of food residue and the like between a local denture of a thermoplastic soft resin and a conventional resin partial denture, and a difference in a contact state between a tongue and a buccal mucosa. Fig. 7A The clasp inhibits the flow of saliva, food residue, and the like. FIG. 7B The flow of saliva, food residue, etc. is not hindered by the smooth transition.

FIG. 8 shows a cross section of an anterior denture and a posterior denture in which a cushioning material is lined with a hard resin denture base mucosal surface on a mucous surface of a denture.

FIG. 9 is a view showing a setting standard of a denture attaching / detaching direction, a remaining tooth, and a partial denture base side view.

[Fig. 10] "Hi-Dental Service Co., Ltd.""Resin softening / curing heater / sulfone furnace"

FIG. 11: High Dental Service Co., Ltd. “Resin Injection Molding Machine Sulfone Jet 2000”

[Explanation of Codes] Natural teeth 2. Thermoplastic soft / hard resin 2C. Engagement part 3. Artificial teeth 4. Dead space 5. Metal clasp 6. 6. Flow of saliva, food residue, etc. 7. Cushion material (lining) Oral mucosa 9. Tooth root 10. 10. Partial denture removable direction Under zone section 12. Partial denture removable width 13. Ridge 14. Metal bar 15. Moving teeth 16. Correction ammunition 17. Resin heater 18. Heating chamber 19. Plunger 20. 21. Denture flask Injection molded product 22. Resin injection port 23. Control panel 24. Pressure handle 25. Pressure gauge 26. Resin injection molding machine

[Procedure amendment 2]

[Document name to be amended] Drawing

[Correction target item name] All figures

[Correction method] Change

[Correction contents]

FIG.

FIG. 1A

FIG. 2

FIG. 3

FIG. 4

FIG. 6

FIG. 5

FIG. 7

FIG. 8

FIG. 9

FIG. 10

FIG. 11

[Procedure amendment]

[Submission date] November 30, 2001 (2001.11.
30)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Polyethylene denture material

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dental prosthesis, a jaw and mouth protection device for dentures (local dentures and full dentures), night guards, bite planes, mouthpieces, artificial teeth and the like. And orthodontic appliances, dental prostheses, implant dentures, implant bridges and artificial teeth.

[0002]

2. Description of the Related Art Conventionally, acrylic resin, polycarbonate, polysulfone, and polyethersulfone have been used as a denture base and artificial tooth material. But,
These resins are all hard denture base materials.

[0003] Since a hard denture base material is used, a denture is made of a metal clasp (metal spring) (Fig. 6) to resist the attachment and detachment of the denture and to maintain it. Lack of precision molding.

[0004] Therefore, aesthetics are impaired, and further, the flow of saliva, food residue, and the like is inhibited by the clasp (FIG. 7), and biocompatibility such as metal allergy is impaired.

[0005] Furthermore, when a hard denture base material is worn in the oral cavity, it stimulates the jaw mucosa of the mucous surface of the denture, causing absorption of the mucous membrane and alveolar bone, causing symptoms such as pain, making the denture incompatible and unsatisfactory. As a result, a comfortable eating habit may be hindered.

For this reason, silicone or vinyl is used as a cushioning material (FIG. 8) on the mucous surface of the denture as a lining on the mucosal surface of the hard resin denture base. However, deterioration, discoloration, deterioration and multi-holes occur in the oral cavity. Due to the quality material, there are drawbacks such as easy propagation of bacteria and complicated operation.

Acrylic resins, polycarbonates, polysulfones, polyethersulfones, and the like are not currently used in dishes and the like due to the problem of elution of environmental hormones.

Conventionally used acrylic resins, polycarbonates, polysulfones and polyethersulfones are not satisfactory denture base materials in terms of hygiene, comfort, stability, durability and aesthetics.

In the case of using a conventional hard material that does not have elasticity, in the case of a partial denture, the denture attachment / detachment direction forms a large gap between the remaining tooth and the denture base. In other words, the lateral spread cannot extend beyond the surveillance line, which is the highest point of the adjacent remaining tooth, to the remaining tooth side, and its width is limited by the surveillance line of the remaining tooth. A gap is formed between the undercut portion of the remaining tooth and the denture base that becomes thinner toward the bottom, and this forms a large under pocket together with the clasp and serves as a stagnant space for food residue. This gap, called the dead space, is located below the survey line on the buccolingual surface adjacent to the remaining tooth, makes it easier for plaque to adhere, and causes the periodontal tissue of the remaining tooth to be destroyed. In this case, the undercut portion (FIG. 9) or the underzone portion of the gingiva is engaged with and adhered to the underzone portion, so that a dead space is formed, and a portion where food residue stagnates during a meal is formed.

[0010]

SUMMARY OF THE INVENTION Jaw and oral cavity protection devices such as dentures, local dentures, and complete dentures, night guards, bite planes, mouthpieces, implant dentures, implant bridges, etc .; In artificial teeth, etc., from conventional hard denture materials, soft denture materials with elasticity, more hygienic, comfort, stability,
It is an object of the present invention to provide a soft or hard denture base material having durability and aesthetic properties according to the case.

[0011]

SUMMARY OF THE INVENTION The present invention has been made to improve the above circumstances, and is made of a thermoplastic, soft or hard resin (high pressure method [low density] polyethylene) (low pressure method [high density] polyethylene). By using, hygienic, comfortable, stable, durable, aesthetic dentures with dentures (local dentures and all dentures), or night guard, bite plane, mouthpiece, artificial teeth, Dental soft and hard resin material used for dental devices for jaw and mouth protection devices such as implant dentures and implant bridges, and dental floor orthodontic devices.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention has been studied diligently to achieve the above object. It has also succeeded in simplifying the manufacturing process of dentures and tooth devices.

The main resin is a high-pressure (low-density) polyethylene composition, and as the low-pressure (high-density) polyethylene composition, commercially available products (Asahi Kasei, Idemitsu, Mitsui, Nippon Polychem, etc.) can be used.

Here, as the soft / hard resin, a material conventionally used for manufacturing a tableware container or the like, for example, JIS
Use the standard (high-pressure method [low-density] polyethylene) and (low-pressure method [high-density] polyethylene). It is blended.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to manufacture such a denture having a denture and a device for a tooth, a wax denture is buried in a denture flask, gypsum is hardened, wax is flown, a separating material is applied, and the wax is removed. In the waxed space, the temperature of the sulfone furnace (FIG. 10) manufactured by High Dental Service Co., Ltd. was set to 200 ° C., and the resin was softened and cured in 10 minutes. Then, a thermoplastic resin, a high-pressure method (low-density) polyethylene, and a (low-pressure method [high-density] polyethylene) were placed in a denture flask preheated in an oven at 60 to 100 ° C. in advance using a sulfone jet 2000 type (FIG. 11). As a result of intensive examination by injection molding, a denture with a denture and a device for teeth were obtained. It should be noted that a device of another company can be used as the softening device and the injection molding device.

In addition, as a method for charging a thermoplastic resin, it is also possible to soften a conventionally used denture flask with an electric furnace or the like and to compression-mold the doughed resin into the flask.

The heating softening / curing filling conditions may be such that the high pressure method (low density) polyethylene and the (low pressure method [high density] polyethylene) composition are heated to a temperature at which the composition softens and hardens.
Although not particularly limited, usually 250 ° C. or less,
(Preferably 70 to 250 ° C), particularly 100 to 200 ° C. Although the cooling time after filling is not limited, it is usually preferably 30 to 120 minutes, particularly preferably 10 to 90 minutes.

[0019]

The present invention uses a high-pressure (low-density) polyethylene composition and a low-pressure (high-density) polyethylene composition to inject dental equipment for soft / hard resin dentures and soft / hard resin teeth for dental use. It can be obtained in a simplified manner using a vessel (FIGS. 11 and 12).

In addition, in the case of a denture with a bed, the elasticity of a soft material having an intermediate hardness between the jaw / oral mucosa and the artificial tooth and having elasticity, when the jaw / oral mucosa is subjected to an occlusal load, the elasticity is reduced. The soft resin (high-pressure method [low density] polyethylene) is located as a denture base between the provided jaw / oral mucosa and the hard artificial teeth, so the irritation given to the jaw / oral mucosa is reduced and the mucous membrane subsidence , And alveolar bone resorption,
The burden on pain sites such as bone bulges and flavi gum (soft mucosa) can be reduced.

Further, since the soft and hard resin is a material having characteristics excellent in hygiene, comfort, stability, and durability,
It can overcome the conventional denture which can be used for a long period of time under severe environment and use conditions in the oral cavity.

Soft and hard resins (high-pressure method (low-density) polyethylene) and low-pressure method (high-density) polyethylene do not have the disadvantage that solvents such as environmental hormones are eluted.

As the soft resin tooth device, a high pressure method (low density) polyethylene composition can be selected, and as the hard resin, a low pressure degree (high density method) polyethylene composition can be selected. Also,
Both intermediate materials can be selectively used and manufactured depending on the condition of the case.

Since it has the characteristics of plasticity and elasticity of high-pressure method (low-density) polyethylene, it engages and adheres to the undercut or underzone of teeth or gingiva, and resists the attachment and detachment of dentures. An engaging portion to be locked can be provided, and the dead space can be reduced.

The dental device of the present invention includes a denture having a denture (local denture and full denture), a jaw / oral protection device such as a night guard, a bite plane, a mouthpiece, an implant denture, an implant bridge, and the like. It can be configured as an orthodontic appliance and an artificial tooth.

Due to the elastic properties of high-pressure (low-density) polyethylene, the above-described tooth device can be used without using a metallic clasp (spring) as in the prior art.

Therefore, when no metal clasp is used, no metal is used, so that the working efficiency and resources can be reduced, and the manufacturing cost is very low.

Further, the aesthetics are impaired.

FIG. 1A does not prevent clasps from obstructing the flow of saliva, food residue and the like, and does not impair biocompatibility such as metal allergy.

Furthermore, in the case of the conventional partial dentures, the direction of attachment and detachment of the denture causes a dead space between the remaining tooth and the denture base.
High-pressure (low-density) polyethylene, which has the elastic characteristics of polyethylene, engages and adheres to the teeth or gingival undercuts or underzones, and reduces the possibility of dead spaces, resulting in food residue during meals. Because there is no stagnation, you can enjoy your diet comfortably.

In particular, polyethylene (PE) and polypropylene (PP) have sufficient stability and strength in the body and are used as soft tissue replacement materials for artificial trachea, artificial chest wall, and the like. It is stable because it is not recognized, unlike the conventionally used materials used as medical polymer materials, there are no effects of environmental hormones, tableware,
It is a safe material used as a food container.

[Brief description of the drawings]

FIG. 1 Local denture made of thermoplastic soft and hard resin (very aesthetic because no metal spring is visible in the appearance)

FIG. 1A is a partial denture of a resin conventionally used (a metal spring is visible in the external appearance, so the aesthetic is very poor).

[Fig. 2] The appearance of both the dentures of the thermoplastic soft and hard resin and the resin used in the past are the same.

FIG. 3 is a jaw / mouth protection device such as a night guard, a bite plane, and a mouthpiece.

FIG. 4 is a dental floor orthodontic appliance.

FIG. 5 is a local denture of a thermoplastic or soft resin having an engaging portion that engages with and engages with an undercut portion or an underzone portion of a tooth or a gingiva.

FIG. 5A is a buccal side view local denture of the present invention.

FIG. 5B is an occlusal surface local denture according to the present invention.

FIG. 5C is a buccal view of a local denture with only elastic force.

FIG. 5D is a view of an occlusal surface of a local denture with only elastic force.

FIG. 6 shows a partial denture in which a metal clasp (metal spring) is used for the denture to resist attachment and detachment of the denture, and to maintain and hold the denture. Complex structure, hygiene, and complicated during production.
In addition, a dead space is always created.

FIG. 7 shows a difference in flow of food residue and the like between a local denture of a thermoplastic soft resin and a conventional resin partial denture, and a difference in a contact state between a tongue and a buccal mucosa.

FIG. 7A: Flow of saliva, food residue, etc. is not hindered by smooth transition.

FIG. 7B: Clasps inhibit flow of saliva, food residue, and the like.

FIG. 8 shows a cross section of an anterior denture and a posterior denture in which a cushioning material is lined with a hard resin denture base mucosal surface on a mucous surface of a denture.

FIG. 9 is a view showing a setting standard of a denture attaching / detaching direction, a remaining tooth, and a partial denture base side view.

FIG. 10 is a front view of an implant denture.

FIG. 11 is a side view of an implant bridge.

FIG. 12 is a front view of a representative case.

FIG. 13 is a left side view of a representative case.

FIG. 14 is a right side view of a representative case.

FIG. 15 is a plan view of a representative case.

FIG. 16 is a bottom view of a representative case.

FIG. 17 is a three-dimensional view of a representative case.

[Fig. 18] High Dental Service Co., Ltd. “Resin softening / curing heater / sulfone furnace”

FIG. 19: High Dental Service Co., Ltd. “Resin Injection Molding Machine Sulfone Jet 2000”

[Explanation of Codes] Natural teeth 2. 2. Partial denture using soft resin Artificial teeth 4. Maintaining / gripping part 5. Metal casting clasp 6. Dead sky 7. 7. Cross section of metal casting clasp 8. Flow of saliva, food residue, etc. Cushion material (lining) 10. Oral mucosa 11. Tooth root 12. 12. Partial denture removable direction Under zone part 14. Survey line 15. Partial denture removable width 16. Jaw ridge 17. Metal bar 18. Moving teeth 19. Correction bullet 20. Implant metal frame 21. Implant body 22. Implant bridge fixing screw 23. Implant bridge body 24. Soft resin artificial teeth 25. Resin heater 26. Heated resin softening chamber 27. Plunger 28. Denture flask 29. Injection molded product 30. Resin injection port 31. Control panel 32. Pressure handle 33. Pressure gauge 34. Resin injection molding machine 35. Denture mucosal surface 36. Remaining tooth contact surface

[Procedure amendment 2]

[Document name to be amended] Drawing

[Correction target item name] All figures

[Correction method] Change

[Correction contents]

FIG.

FIG. 1-A

FIG. 2

FIG. 3

FIG. 4

FIG. 6

FIG. 7

FIG. 9

[Fig. 5]

FIG. 8

FIG. 10

FIG. 11

FIG.

FIG. 13

FIG. 14

FIG. 15

FIG. 16

FIG.

FIG.

FIG.

Claims (4)

[Claims] 1. A denture base material having a processing temperature of 70 to 250 ° C., a thermoplastic soft resin having high elasticity and plasticity (high pressure method [low density] polyethylene) (ethylene CH2 =
CH2) or dentures (local dentures and full dentures), or jaw / oral protection devices such as night guards, bite planes, mouthpieces, etc., and orthodontic beds formed from isotactic polypropylene On the device,
This is a soft resin tooth device characterized by having a soft resin floor. 2. A denture (a local denture (FIG. 1)) having a thermoplastic soft resin denture base and an artificial tooth implanted therein.
A complete denture (Fig. 2), a mouth protection device (Fig. 3), and a dental orthodontic device (Fig. 4), and for those requiring more strength depending on the case, reinforcement using a conventionally used metal is also used. The soft resin tooth device according to claim 1, wherein the tooth device is made of a thermoplastic soft resin. 3. The tooth device has an engaging portion which engages with and engages with an undercut portion or underzone portion of a tooth or a gingiva (FIG. 5). An apparatus for teeth of the soft resin described in the above. 4. A method of heating and softening a thermoplastic soft resin, followed by injection molding;
2. The production method according to claim 1, wherein a soft resin tooth device characterized by being formed by compression molding, transfer formation or the like.