阅读说明：本技术 用于植牙和修复的综合矫正方法 (comprehensive correction method for tooth implantation and restoration ) 是由 杨义成 于 2018-06-11 设计创作，主要内容包括：本发明有关于一种用于植牙和修复的综合矫正方法,其主要利用隐形矫正单元先对患者进行牙齿矫正,且于患者完成牙齿矫正的疗程后,选择进入植牙单元进行植牙作业或进入义齿修复单元进行义齿修复作业；藉此,能令植牙或牙齿修复后更为美观,且不会对牙齿产生破坏损伤,而在其整体施行使用上更增实用功效特性者。(the invention relates to a comprehensive correction method for tooth implantation and restoration, which mainly utilizes an invisible correction unit to correct teeth of a patient, and selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth restoration unit for false tooth restoration operation after the patient completes the course of tooth correction; therefore, the implanted or repaired tooth is more beautiful, and the tooth will not be damaged, so as to increase the practical efficacy of the whole dental implant.)

1. a method for integrated orthodontic treatment and restoration, said method comprising: A. an invisible correcting unit: it is firstly to carry out the orthodontics to the patient, including:

A1. Intraoral scan unit: firstly, carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

A2. Digital tooth mould unit: after the digital data in the oral cavity of the patient are obtained, a digital dental model can be constructed according to the digital data in the oral cavity of the patient by using a computer;

A3. Tooth arrangement design unit: utilizing the manufactured digital dental model to perform tooth arrangement correction on the patient, and utilizing a computer to perform automatic tooth arrangement operation program on the digital dental model data by using tooth arrangement software to generate corrected dental model digital design data of each stage from the initial stage to the final stage of the invisible gum cover correction of the patient;

A4. Invisible rubber sleeve unit: manufacturing an entity orthodontic tooth mould according to the digital design data of the orthodontic tooth mould, forming an invisible rubber sleeve rough blank which is a U-shaped shell and is provided with a tooth orthodontic groove according to the shape of the dentition on the entity orthodontic tooth mould in a rubber sleeve forming machine, and then performing rough edge trimming operation on the invisible rubber sleeve rough blank to finish the manufacturing of the invisible rubber sleeve;

A5. a correction completion unit: the invisible gum cover is worn by a patient, fine dentition fine adjustment correction such as tight fit of tooth seams is carried out by the invisible gum cover, and after the patient finishes the dentition correction course, the patient selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth repair unit for false tooth repair operation;

B. A tooth implantation unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out the operation of implanting teeth, includes:

B1. a computed tomography unit: firstly, carrying out tomography scanning on the oral cavity of a patient to be subjected to tooth implantation operation;

B2. Intraoral scan unit: after the tomography of the oral cavity of the patient is carried out, the oral cavity of the patient to be implanted is also scanned in the oral cavity so as to clearly obtain the digital information in the oral cavity of the patient;

B3. Temporary tooth socket design unit: the obtained digital information in the oral cavity is subjected to tooth arrangement design by tooth arrangement design software to be accurately designed into a temporary tooth socket;

B4. operation baffle preparation unit: the obtained oral digital information is imported into tooth implantation planning software to manufacture a tooth implantation surgical guide plate;

B5. the tooth implantation operation unit: the dental implant operation guide plate is used for carrying out flap operation artificial dental implant, a temporary tooth socket manufactured by temporary tooth design software is installed after the dental implant operation, so that a patient can use the temporary tooth socket firstly and can take a die from the temporary tooth socket to manufacture a permanent false tooth, so as to replace the permanent false tooth for the patient, and finally the permanent false tooth is implanted into the patient;

C. a false tooth repairing unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out artificial tooth repair operation, includes:

C1. Tooth mould preparation unit: making a patient pass through a bite mould to manufacture a tooth mould;

C11. tooth mold digital data acquisition unit: scanning the manufactured tooth mold to establish digital data of the oral cavity of the patient;

C12. a denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C13. a false tooth manufacturing unit: making a molded denture from digital design data in the oral cavity established by denture design software;

C14. The false tooth installs the unit: the molded denture is installed in a default position in the oral cavity of the patient.

2. A method for integrated orthodontic treatment and restoration, said method comprising:

A. an invisible correcting unit: it is firstly to carry out the orthodontics to the patient, including:

A1. intraoral scan unit: firstly, carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

A2. digital tooth mould unit: after the digital data in the oral cavity of the patient are obtained, a digital dental model can be constructed according to the digital data in the oral cavity of the patient by using a computer;

A3. Tooth arrangement design unit: utilizing the manufactured digital dental model to perform tooth arrangement correction on the patient, and utilizing a computer to perform automatic tooth arrangement operation program on the digital dental model data by using tooth arrangement software to generate corrected dental model digital design data of each stage from the initial stage to the final stage of the invisible gum cover correction of the patient;

A4. invisible rubber sleeve unit: manufacturing an entity orthodontic tooth mould according to the digital design data of the orthodontic tooth mould, forming an invisible rubber sleeve rough blank which is a U-shaped shell and is provided with a tooth orthodontic groove according to the shape of the dentition on the entity orthodontic tooth mould in a rubber sleeve forming machine, and then performing rough edge trimming operation on the invisible rubber sleeve rough blank to finish the manufacturing of the invisible rubber sleeve;

A5. a correction completion unit: the invisible gum cover is worn by a patient, fine dentition fine adjustment correction such as tight fit of tooth seams is carried out by the invisible gum cover, and after the patient finishes the dentition correction course, the patient selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth repair unit for false tooth repair operation;

B. a tooth implantation unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out the operation of implanting teeth, includes:

B1. a computed tomography unit: firstly, carrying out tomography scanning on the oral cavity of a patient to be subjected to tooth implantation operation;

B2. intraoral scan unit: after the tomography of the oral cavity of the patient is carried out, the oral cavity of the patient to be implanted is also scanned in the oral cavity so as to clearly obtain the digital information in the oral cavity of the patient;

B3. Temporary tooth socket design unit: the obtained digital information in the oral cavity is subjected to tooth arrangement design by tooth arrangement design software to be accurately designed into a temporary tooth socket;

B4. operation baffle preparation unit: the obtained oral digital information is imported into tooth implantation planning software to manufacture a tooth implantation surgical guide plate;

B5. The tooth implantation operation unit: the dental implant operation guide plate is used for carrying out flap operation artificial dental implant, a temporary tooth socket manufactured by temporary tooth design software is installed after the dental implant operation, so that a patient can use the temporary tooth socket firstly and can take a die from the temporary tooth socket to manufacture a permanent false tooth, so as to replace the permanent false tooth for the patient, and finally the permanent false tooth is implanted into the patient;

C. A false tooth repairing unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out artificial tooth repair operation, includes:

C2. Intraoral scan unit: directly carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

C21. a denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C22. A false tooth manufacturing unit: making a molded denture from digital design data in the oral cavity established by denture design software;

C23. the false tooth installs the unit: the molded denture is installed in a default position in the oral cavity of the patient.

3. the comprehensive orthodontic method for tooth implantation and restoration according to claim 1 or 2, wherein the invisible gum cover unit is used for manufacturing the solid orthodontic tooth mold by a model forming machine according to the digital design data of the orthodontic tooth mold, and a gum cover forming sheet made of transparent plastic material is arranged on the solid orthodontic tooth mold, and the gum cover forming sheet and the solid orthodontic tooth mold are arranged in the gum cover forming machine, so that after the gum cover forming sheet is hot-pressed in the gum cover forming machine, the gum cover forming sheet is used for forming the invisible gum cover rough blank which is in a U shape and is provided with the orthodontic groove according to the dentition shape on the solid orthodontic tooth mold, and then the invisible gum cover rough blank is manually trimmed by a trimming machine to complete the manufacturing of the invisible gum cover.

4. the integrated orthodontic method for implant and restoration according to claim 1 or 2, wherein the denture fabrication unit fabricates the denture by CNC by using a 3D dental sculpturing machine with a polymer material.

5. the integrated orthodontic method for implant and restoration according to claim 1 or 2, wherein the denture fabrication unit fabricates and shapes the denture using a 3D printer with a polymer material in a CNC manner.

6. The comprehensive orthodontic method for tooth implantation and restoration according to claim 1 or 2, wherein the tooth implantation surgical guide plate manufactured by the surgical guide plate manufacturing unit of the tooth implantation unit is formed with a sheathing part at least one side of which is provided for sheathing on the teeth at least one side of the site where the tooth implantation is to be performed, the sheathing part is provided with a close-fitting hole so that the sheathing part can be more closely fitted to the teeth, the tooth implantation surgical guide plate is provided with a through hole corresponding to the site where the tooth implantation is to be performed, and a drainage hole is provided at a side edge of the tooth implantation surgical guide plate, the drainage hole being capable of facilitating drainage of bloody water generated during the tooth implantation surgery so as to facilitate the performance of the tooth implantation surgery.

Technical Field

the invention relates to a comprehensive correction method for tooth implantation and restoration, in particular to a method for firstly utilizing an invisible correction unit to correct teeth in the oral cavity of a patient, and after the teeth of the patient are corrected, selecting to enter a tooth implantation unit to perform tooth implantation operation or enter an artificial tooth restoration unit to perform artificial tooth restoration operation, so that the implanted teeth or the restored teeth are more beautiful, the teeth cannot be damaged, and the practical efficacy characteristic is increased in the aspect of integral application and use.

background

according to the technical scheme, when various diseases occur to teeth, teeth are easy to damage and even cause the tooth loss, and the tooth loss is more obvious particularly with the age; the teeth are damaged and fall off, so that the teeth are irregular, the oral health and the chewing function are influenced, food cannot be chewed sufficiently, the burden on gastrointestinal absorption is increased, the teeth beside the teeth fall off are inclined and shifted to the teeth missing part, the teeth deform, the food is embedded and plugged in the teeth missing part, and the beauty of the facial contour is influenced.

with the progress of medical technology in the dental field, for the seriously damaged or fallen teeth, the seriously damaged teeth can be extracted, tooth implanting holes are dug at the tooth socket positions for implanting artificial tooth roots after the teeth are extracted or the teeth fall off, and then the upper ends of the artificial tooth roots are provided with artificial tooth crowns so as to replace the extracted or fallen teeth by using the implanted teeth; or the teeth at two sides of the gullet position corresponding to the extracted teeth or the teeth falling off are ground to be small for sleeving the dental crowns, and the sleeved dental crowns are used for replacing the extracted or fallen teeth.

however, although the above-mentioned dental medical restoration method can achieve the expected effect of replacing the extracted or fallen teeth, it is found in practical operation and use that the beauty of the implanted teeth is not good because the teeth to be restored are not corrected first but directly implanted, and if the teeth to be restored are not corrected first, i.e. the tooth crown is to be fitted, the teeth at the relative position need to be ground small, so that the teeth are damaged, and there is still room for improvement in the overall implementation.

Accordingly, the inventor provides a comprehensive correction method for tooth implantation and restoration with the abundant design development and practical manufacturing experience of the related industry for many years, and the comprehensive correction method is researched and improved according to the existing structure and deficiency, so as to achieve the purpose of better practical value.

disclosure of Invention

The invention mainly aims to provide a comprehensive correction method for tooth implantation and restoration, which mainly utilizes an invisible correction unit to correct teeth in the oral cavity of a patient, and selects to enter the tooth implantation unit to perform tooth implantation operation or enter the false tooth restoration unit to perform false tooth restoration operation after the teeth of the patient are corrected, so that the implanted teeth or the repaired teeth are more beautiful, the teeth cannot be damaged, and the practical efficacy is improved in the aspect of integral application and use.

the invention relates to a comprehensive correction method for tooth implantation and restoration, which mainly aims at achieving the following specific technical means:

it mainly comprises:

A. an invisible correcting unit: it is firstly to carry out the orthodontics to the patient, including:

A1. intraoral scan unit: firstly, carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

A2. digital tooth mould unit: after obtaining the digital data in the oral cavity of the patient, constructing a digital dental model according to the digital data in the oral cavity of the patient by using a computer;

A3. Tooth arrangement design unit: utilizing the manufactured digital dental model to perform tooth arrangement correction on the patient, and utilizing a computer to perform automatic tooth arrangement operation program on the digital dental model data by using tooth arrangement software to generate corrected dental model digital design data of each stage from the initial stage to the final stage of the invisible gum cover correction of the patient;

A4. Invisible rubber sleeve unit: manufacturing an entity orthodontic tooth mould according to the digital design data of the orthodontic tooth mould, forming an invisible rubber sleeve rough blank which is a U-shaped shell and is provided with a tooth orthodontic groove according to the shape of the dentition on the entity orthodontic tooth mould in a rubber sleeve forming machine, and then performing rough edge trimming operation on the invisible rubber sleeve rough blank to finish the manufacturing of the invisible rubber sleeve;

A5. a correction completion unit: the invisible gum cover is worn by a patient, fine dentition fine adjustment correction such as tight fit of tooth seams is carried out by the invisible gum cover, and after the patient finishes the dentition correction course of treatment, the patient selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth repair unit for false tooth repair operation;

B. A tooth implantation unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out the operation of implanting teeth, includes:

B1. a computed tomography unit: firstly, carrying out tomography scanning on the oral cavity of a patient to be subjected to tooth implantation operation;

B2. intraoral scan unit: after the tomography of the oral cavity of the patient is carried out, the oral cavity of the patient to be implanted is also scanned in the oral cavity so as to clearly obtain the digital information in the oral cavity of the patient;

B3. temporary tooth socket design unit: the obtained digital information in the oral cavity is subjected to accurate temporary tooth socket design through tooth arrangement design by using temporary tooth design software;

B4. operation baffle preparation unit: the obtained digital information in the oral cavity is imported into tooth implantation planning software to manufacture a tooth implantation operation guide plate;

B5. the tooth implantation operation unit: the dental implant operation guide plate is utilized to carry out flap operation artificial dental implant, and a temporary tooth socket made by temporary tooth design software is arranged after the dental implant operation, so that a patient can use the temporary tooth socket firstly and can take a die from the temporary tooth socket to manufacture a permanent false tooth so as to replace the permanent false tooth for the patient, and finally the permanent false tooth is implanted into the patient;

C. a false tooth repairing unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out artificial tooth repair operation, includes:

C1. Tooth mould preparation unit: making a patient pass through a bite mould to manufacture a tooth mould;

C11. Tooth mold digital data acquisition unit: scanning the manufactured tooth mold to establish digital data in the oral cavity of the patient;

C12. A denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C13. a false tooth manufacturing unit: making a molded denture from digital design data in the oral cavity established by denture design software;

C14. the false tooth installs the unit: the formed denture is installed in the default position in the oral cavity of the patient.

the invention relates to a comprehensive correction method for tooth implantation and restoration, which mainly aims at achieving the following specific technical means:

it mainly comprises:

A. An invisible correcting unit: it is firstly to carry out the orthodontics to the patient, including:

A1. intraoral scan unit: firstly, carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

A2. Digital tooth mould unit: after obtaining the digital data in the oral cavity of the patient, constructing a digital dental model according to the digital data in the oral cavity of the patient by using a computer;

A3. Tooth arrangement design unit: utilizing the manufactured digital dental model to perform tooth arrangement correction on the patient, and utilizing a computer to perform automatic tooth arrangement operation program on the digital dental model data by using tooth arrangement software to generate corrected dental model digital design data of each stage from the initial stage to the final stage of the invisible gum cover correction of the patient;

A4. Invisible rubber sleeve unit: manufacturing an entity orthodontic tooth mould according to the digital design data of the orthodontic tooth mould, forming an invisible rubber sleeve rough blank which is a U-shaped shell and is provided with a tooth orthodontic groove according to the shape of the dentition on the entity orthodontic tooth mould in a rubber sleeve forming machine, and then performing rough edge trimming operation on the invisible rubber sleeve rough blank to finish the manufacturing of the invisible rubber sleeve;

A5. a correction completion unit: the invisible gum cover is worn by a patient, fine dentition fine adjustment correction such as tight fit of tooth seams is carried out by the invisible gum cover, and after the patient finishes the dentition correction course of treatment, the patient selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth repair unit for false tooth repair operation;

B. A tooth implantation unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out the operation of implanting teeth, includes:

B1. A computed tomography unit: firstly, carrying out tomography scanning on the oral cavity of a patient to be subjected to tooth implantation operation;

B2. intraoral scan unit: after the tomography of the oral cavity of the patient is carried out, the oral cavity of the patient to be implanted is also scanned in the oral cavity so as to clearly obtain the digital information in the oral cavity of the patient;

B3. Temporary tooth socket design unit: the obtained digital information in the oral cavity is subjected to accurate temporary tooth socket design through tooth arrangement design by using temporary tooth design software;

B4. operation baffle preparation unit: the obtained digital information in the oral cavity is imported into tooth implantation planning software to manufacture a tooth implantation operation guide plate;

B5. the tooth implantation operation unit: the dental implant operation guide plate is utilized to carry out flap operation artificial dental implant, and a temporary tooth socket made by temporary tooth design software is arranged after the dental implant operation, so that a patient can use the temporary tooth socket firstly and can take a die from the temporary tooth socket to manufacture a permanent false tooth so as to replace the permanent false tooth for the patient, and finally the permanent false tooth is implanted into the patient;

C. a false tooth repairing unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out artificial tooth repair operation, includes:

C2. intraoral scan unit: directly carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data in the oral cavity of the patient;

C21. a denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C22. a false tooth manufacturing unit: making a molded denture from digital design data in the oral cavity established by denture design software;

C23. the false tooth installs the unit: the formed denture is installed in the default position in the oral cavity of the patient.

The present invention provides a preferred embodiment of the comprehensive orthodontic method for tooth implantation and restoration, wherein the invisible gum cover unit is used for manufacturing the solid orthodontic tooth mold by a model forming machine according to the digital design data of the orthodontic tooth mold, arranging a gum cover forming sheet made of transparent plastic material on the solid orthodontic tooth mold, placing the gum cover forming sheet and the solid orthodontic tooth mold into the gum cover forming machine, after hot pressing the gum cover forming sheet in the gum cover forming machine, forming the gum cover forming sheet into a U-shaped shell according to the dentition shape on the solid orthodontic tooth mold, and then carrying out artificial burr trimming operation on the invisible gum cover rough blank by a trimming machine to finish the manufacturing of the invisible gum cover.

the present invention is a preferred embodiment of the comprehensive correction method for dental implantation and restoration, wherein the denture fabrication unit is configured to fabricate and mold the denture from a polymer material by a 3D dental engraving machine in a CNC manner.

the present invention is a preferred embodiment of the comprehensive correction method for dental implantation and restoration, wherein the denture fabrication unit is configured to fabricate and mold the denture from polymer material by a 3D printer in a CNC manner.

the present invention provides a preferred embodiment of a comprehensive orthodontic method for tooth implantation and restoration, wherein a sheathing part is formed on at least one side of a tooth implantation surgical guide plate manufactured by the surgical guide plate manufacturing unit of the tooth implantation unit to be sheathed on teeth on at least one side of a position to be implanted with teeth, the sheathing part is provided with a close-fitting hole to enable the sheathing part to be more closely combined with the tooth sheathing part, a perforation is formed at the position of the tooth implantation surgical guide plate corresponding to the position to be implanted with teeth, and a drainage hole is formed at the side edge of the tooth implantation surgical guide plate and can be used for conveniently draining bloody water generated in the tooth implantation surgical process so as to facilitate the tooth implantation surgical operation.

drawings

FIG. 1 is a schematic flow diagram of the present invention;

FIG. 2 is a perspective view of the dental implant surgical guide of the present invention;

fig. 3 is a schematic perspective view of another embodiment of the dental implant surgical guide of the present invention.

[ notation ] to show

1 dental implant operation guide plate

11 set part

111 close contact hole

12 perforation

13 drainage hole

Detailed Description

in order to make the technical content, the purpose and the efficacy achieved by the present invention more complete and clear, the following detailed description is given with reference to the accompanying drawings and figures:

first, referring to fig. 1, a flow chart of the present invention is schematically shown, and an embodiment of the present invention includes:

A. an invisible correcting unit: it is firstly to carry out the orthodontics to the patient, including:

A1. intraoral scan unit: firstly, carrying out intraoral scanning on the oral cavity of a patient so as to clearly obtain intraoral digital data such as tooth appearance, arrangement shape and the like in the oral cavity of the patient;

A2. Digital tooth mould unit: after obtaining the digital data in the oral cavity of the patient, constructing a digital dental model according to the digital data in the oral cavity of the patient by using a computer;

A3. tooth arrangement design unit: utilizing the manufactured digital dental model to perform tooth arrangement correction on the patient, and utilizing a computer to perform automatic tooth arrangement operation program on the digital dental model data by using tooth arrangement software to generate corrected dental model digital design data of each stage from the initial stage to the final stage of the correction of the invisible gum cover of the patient;

A4. invisible rubber sleeve unit: a model forming machine is used for manufacturing an entity orthodontic tooth mould according to the digital design data of the orthodontic tooth mould, a rubber sleeve forming sheet made of transparent plastic is arranged on the entity orthodontic tooth mould, the rubber sleeve forming sheet and the entity orthodontic tooth mould are arranged in a rubber sleeve forming machine, after the rubber sleeve forming sheet is hot-pressed in the rubber sleeve forming machine, the rubber sleeve forming sheet is formed into a U-shaped shell and an invisible rubber sleeve rough blank with a tooth correcting groove according to the shape of the dentition on the entity orthodontic tooth mould, and then the invisible rubber sleeve rough blank is subjected to manual rough edge trimming and other operations by a trimming machine so as to finish the manufacturing of the invisible rubber sleeve;

A5. a correction completion unit: the invisible gum cover is worn by a patient, fine dentition fine adjustment correction such as tight fit of tooth seams is carried out by the invisible gum cover, and after the patient finishes the dentition correction course, the patient selects to enter a tooth implantation unit for tooth implantation operation or enter a false tooth repair unit for false tooth repair operation.

B. a tooth implantation unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out the operation of implanting teeth, includes:

B1. a computed tomography unit: firstly, carrying out tomography scanning on the oral cavity of a patient to be subjected to tooth implantation operation, and clearly acquiring the thickness and the nerve direction of an alveolar bone in the oral cavity;

B2. Intraoral scan unit: after the tomography of the oral cavity of the patient is carried out, the oral cavity of the patient to be implanted is also scanned in the oral cavity so as to clearly obtain the digital information of the oral cavity of the patient, including the soft tissue and the tooth appearance;

B3. temporary tooth socket design unit: the obtained digital information in the oral cavity is combined with the bite relationship and the tooth aesthetics by the tooth arrangement design software to make an accurate temporary tooth socket design;

B4. Operation baffle preparation unit: the obtained oral digital information is imported into tooth implantation planning software to manufacture a tooth implantation operation guide plate;

B5. the tooth implantation operation unit: it utilizes this tooth implantation operation baffle to turn over lamella operation manual work and plants tooth to adorn by the interim facing the facing tooth temporary facing that tooth design software made after the tooth implantation operation, let the patient can use this interim facing earlier, and follow-up can be got the mould by this interim facing and produce permanent denture, with the replacement of carrying out permanent denture to the patient, can carry out postoperative reinspection after finally implanting permanent denture in the patient again and plant the tooth condition with the inspection.

C. a false tooth repairing unit: it carries out the orthodontic back for the patient, can make the patient choose to carry out artificial tooth repair operation, includes:

C1. tooth mould preparation unit: making a patient pass through a bite mould to manufacture a tooth mould;

C11. tooth mold digital data acquisition unit: scanning the manufactured dental model to establish digital data of the gum and the teeth of the upper jaw and the lower jaw in the oral cavity of the patient;

C12. a denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C13. A false tooth manufacturing unit: manufacturing molded dentures by using numerical design data of upper and lower jaw gingiva and teeth in the oral cavity, which are established by denture design software, and a 3D (three-dimensional) tooth carving machine or a 3D printer and a high polymer material in a CNC (computerized numerical control) mode;

C14. the false tooth installs the unit: the formed denture is installed in the default position in the oral cavity of the patient.

in addition, the denture repair unit can also comprise:

C2. intraoral scan unit: directly carrying out intraoral scanning on the oral cavity of the patient so as to clearly obtain digital data of the gums and teeth of the upper jaw and the lower jaw in the oral cavity of the patient;

C21. a denture design unit: performing digital design of the denture by using the acquired digital data by using denture design software;

C22. A false tooth manufacturing unit: manufacturing molded dentures by using numerical design data of upper and lower jaw gingiva and teeth in the oral cavity, which are established by denture design software, and a 3D (three-dimensional) tooth carving machine or a 3D printer and a high polymer material in a CNC (computerized numerical control) mode;

C23. the false tooth installs the unit: the formed denture is installed in the default position in the oral cavity of the patient.

in addition, referring to fig. 2, a perspective view of a dental implant surgical guide plate according to the present invention and fig. 3, a perspective view of another embodiment of a dental implant surgical guide plate according to the present invention, the tooth implantation operation guide plate 1 manufactured by the operation guide plate manufacturing unit of the tooth implantation unit is provided with a sleeving part 11 at least one side of the tooth implantation operation guide plate 1 for sleeving on at least one side of the tooth to be implanted, the engaging portion 11 is formed with a close-fitting hole 111 to allow the engaging portion 11 to be engaged with the teeth more tightly, and a through hole 12 is formed at a position of the dental implant surgical guide plate 1 corresponding to the tooth to be implanted, the through hole 12 has different apertures corresponding to different drill diameters, and a drainage hole 13 is arranged at the side edge of the dental implant surgery guide plate 1, the drainage hole 13 can facilitate the drainage of blood generated during the tooth implantation operation, so as to facilitate the tooth implantation operation.

therefore, when the invention is used, the patient can be firstly corrected by the invisible correcting unit, and after the patient finishes the tooth correction, the patient can choose to use the tooth implanting unit to carry out the tooth implanting operation or the false tooth repairing operation by the false tooth repairing unit so as to carry out the tooth implanting or false tooth repairing operation on the corrected tooth, thereby replacing the extracted or fallen tooth.

As can be seen from the above description, compared with the prior art, the present invention utilizes the invisible orthodontic unit to perform the orthodontic treatment in the oral cavity of the patient, and after the orthodontic treatment is completed, the patient selectively enters the dental implantation unit to perform the dental implantation or enters the denture repair unit to perform the denture repair, so that the implanted or repaired teeth are more beautiful without damaging the teeth, and the overall performance of the dental prosthesis is more practical.