CN208422226U - A kind of impacted tooth teaching mode of 3D printing - Google Patents
A kind of impacted tooth teaching mode of 3D printing Download PDFInfo
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- CN208422226U CN208422226U CN201721754136.7U CN201721754136U CN208422226U CN 208422226 U CN208422226 U CN 208422226U CN 201721754136 U CN201721754136 U CN 201721754136U CN 208422226 U CN208422226 U CN 208422226U
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- impacted tooth
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Abstract
The utility model relates to a kind of impacted tooth teaching modes of 3D printing.The impacted tooth teaching mode of 3D printing described in the utility model includes the monomer model for showing different types of impacted tooth direction and structure, each type of monomer model includes transparent lower jaw osteogenic section and opaque impacted tooth component, is assembled or is decoupled with click on fashion mutually or one prints;The lower jaw osteogenic section is divided into Mandibular Rumas portion and lateral mandibular, mutually with the first joinery and its construction and the assembling of the second joinery and its construction or partition.The impacted tooth teaching mode of 3D printing described in the utility model can visually show direction and the structure of different types of impacted tooth.
Description
Technical field
The utility model belongs to Education in Stomatology field, is related to a kind of impacted tooth teaching mode more particularly to a kind of 3D
The impacted tooth teaching mode of printing.
Background technique
With the continuous improvement of dentistry teaching request, Education in Stomatology worker is to can be more straight in teaching process
It sees, more really the demand of the teaching teaching model of reflection fine anatomic structure is increasingly reinforced.Wherein wisdom tooth impaction is both China
Common disease and frequently-occurring disease, different types of impaction dental structure and feature are also the key points and difficulties in dentistry teaching.Tradition
Usually different type impacted tooth is described with picture and text in dentistry teaching, currently used dentistry teaching
For teaching model also based on normal anatomical structures, rarely having can be to the teaching mould that different type impaction dental structure and feature are shown
Type.
Summary of the invention
The purpose of this utility model is to provide a kind of impacted tooth teaching modes of 3D printing, it can visually show not
The direction of the impacted tooth of same type and structure.
The impacted tooth teaching mode of 3D printing described in the utility model, including show different types of impacted tooth direction with
The monomer model of structure, each type of monomer model include transparent lower jaw osteogenic section and opaque impacted tooth component, mutually
It mutually assembles or decouples with click on fashion or one prints;The lower jaw osteogenic section is divided into Mandibular Rumas portion and lateral mandibular,
Mutually with the first joinery and its construction and the assembling of the second joinery and its construction or partition.
Preferably, the type of the impacted tooth component is selected from following one: mesioangular impaction, distoangular impaction, vertical impaction,
Horizontal impaction, inverted impaction, buccoangular impaction and linguoangular impaction.
The impacted tooth teaching mode of 3D printing described in the utility model has the advantage that in transparent mandible structure
Opaque impacted tooth can clearly show the structure and feature of different type impacted tooth, can clearly show that different type hinders
The drag sources and removal resistance method of odontiasis, can clearly show operative approach and the side when different type impacted tooth is pulled out
Method can also clearly show the positional relationship of different type impacted tooth Yu nervus alverlaris pipe.
Detailed description of the invention
Fig. 1 is the knot of the monomer model of the first seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 2 is the knot of the monomer model of second of type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 3 is the knot of the monomer model of the third seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 4 is the knot of the monomer model of the 4th seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 5 is the knot of the monomer model of the 5th seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 6 is the knot of the monomer model of the 6th seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Fig. 7 is the knot of the monomer model of the 7th seed type of the impacted tooth teaching mode of 3D printing described in the utility model
Structure schematic diagram.
Specific embodiment
The content of the utility model is described in further details with reference to the accompanying drawings and detailed description.
The impacted tooth teaching mode of 3D printing described in the utility model includes showing inhomogeneity as shown in Figures 1 to 7
The impacted tooth direction of type and the monomer model of structure.Each type of monomer model includes transparent lower jaw osteogenic section and opaque
Impacted tooth component 1, mutually with click on fashion assemble decouple or one printing;The lower jaw osteogenic section is divided into Mandibular Rumas
Portion 2 and lateral mandibular 3, mutually with the first joinery and its construction 4 and the assembling of the second joinery and its construction 5 or partition.
Based on DICOM format file derived from clinical case acquisition mandibular CBCT image, with MIMIC software weight
It builds and designs joinery and its construction and split Mandibular Rumas and lateral mandibular, the use of transparent material photosensitive resin 11122 is raw material, leads to
It crosses 3D printer RS4500 and prints two component of Mandibular Rumas and body portion respectively;It the use of opaque material photosensitive resin 8000 is original
Material prints impacted tooth by 3D printer RS4500.
The impacted tooth teaching mode of 3D printing described in the utility model the preparation method is as follows: being obtained according to clinical case
DICOM format file derived from mandibular CBCT image;It is rebuild with MIMIC software and designs joinery and its construction and split Mandibular Rumas
And lateral mandibular;The use of transparent material photosensitive resin 11122 is raw material, mandibular is printed by 3D printer RS4500 respectively
Two component of ascending branch portion and body portion;The use of opaque material photosensitive resin 8000 is raw material, is printed and hindered by 3D printer RS4500
Odontiasis.Impacted tooth component is assembled into lower jaw osteogenic section or impacted tooth component with click on fashion and Mandibular Rumas component is integrally beaten
Mandibular Rumas portion and lateral mandibular are assembled with the first joinery and its construction and the second joinery and its construction mutually, it is practical to complete this by print
The assembling of the impacted tooth teaching mode of the novel 3D printing.
Embodiment 1: the monomer model of mesioangular impaction
According to DICOM format file derived from the clinical case of mesioangular impaction acquisition mandibular CBCT image.Specific structure
Refering to fig. 1, it is rebuild with MIMIC software and designs joinery and its construction and split Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in Figure 1, by Mandibular Rumas
Portion 2 and lateral mandibular 3 are assembled into lower jaw osteogenic section mutually with the first joinery and its construction 4 and the second joinery and its construction 5, then by impaction
Tooth component 1 is assembled into lower jaw osteogenic section 3 with click on fashion, completes the impacted tooth teaching mode of 3D printing described in the utility model
Assembling.
Embodiment 2: the monomer model of distoangular impaction
According to DICOM format file derived from the clinical case of distoangular impaction acquisition mandibular CBCT image.Specific structure
Mandibular Rumas and lateral mandibular are split referring to Fig.2, being rebuild with MIMIC software and designing joinery and its construction.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in Fig. 2, by Mandibular Rumas
Portion 2 and lateral mandibular 3 are assembled into lower jaw osteogenic section mutually with the first joinery and its construction 4 and the second joinery and its construction 5, then by impaction
Tooth component 1 is assembled into lower jaw osteogenic section 3 with click on fashion, completes the impacted tooth teaching mode of 3D printing described in the utility model
Assembling.
Embodiment 3: the monomer model of vertical impaction
According to DICOM format file derived from the clinical case of vertical impaction acquisition mandibular CBCT image.Specific structure
Refering to Fig. 3, is rebuild with MIMIC software and design joinery and its construction fractionation Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in figure 3, by Mandibular Rumas
Portion 2 and lateral mandibular 3 are assembled into lower jaw osteogenic section mutually with the first joinery and its construction 4 and the second joinery and its construction 5, then by impaction
Tooth component 1 is assembled into lower jaw osteogenic section 3 with click on fashion, completes the impacted tooth teaching mode of 3D printing described in the utility model
Assembling.
Embodiment 4: the monomer model of horizontal impaction
According to DICOM format file derived from the clinical case of horizontal impaction acquisition mandibular CBCT image.Specific structure
Refering to Fig. 4, is rebuild with MIMIC software and design joinery and its construction fractionation Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in figure 4, by Mandibular Rumas
Portion 2 and lateral mandibular 3 are assembled into lower jaw osteogenic section mutually with the first joinery and its construction 4 and the second joinery and its construction 5, then by impaction
Tooth component 1 is assembled into lower jaw osteogenic section 3 with click on fashion, completes the impacted tooth teaching mode of 3D printing described in the utility model
Assembling.
Embodiment 5: the monomer model of inverted impaction
According to DICOM format file derived from the clinical case of inverted impaction acquisition mandibular CBCT image.Specific structure
Refering to Fig. 5, is rebuild with MIMIC software and design joinery and its construction fractionation Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.By Mandibular Rumas, mandible body
Portion, impacted tooth are installed, and the installation of the visualization teaching model of inverted impaction tooth 3D printing production is completed.As shown in figure 5, will
Impacted tooth component 1 and 3 one of Mandibular Rumas component print, by Mandibular Rumas portion 2 and lateral mandibular 3 mutually with the first tenon
Fourth of the twelve Earthly Branches structure 4 and the assembling of the second joinery and its construction 5, complete the assembling of the impacted tooth teaching mode of 3D printing described in the utility model.
Embodiment 6: the monomer model of buccoangular impaction
According to DICOM format file derived from the clinical case of buccoangular impaction acquisition mandibular CBCT image.Specific structure
Refering to Fig. 6, is rebuild with MIMIC software and design joinery and its construction fractionation Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in fig. 6, by impacted tooth component 1
It is printed with the one of Mandibular Rumas component 3, by Mandibular Rumas portion 2 and lateral mandibular 3 mutually with the first joinery and its construction 4 and the
The assembling of two joinery and its constructions 5, completes the assembling of the impacted tooth teaching mode of 3D printing described in the utility model.
Embodiment 7: the monomer model of linguoangular impaction
According to DICOM format file derived from the clinical case of linguoangular impaction acquisition mandibular CBCT image.Specific structure
Refering to Fig. 7, is rebuild with MIMIC software and design joinery and its construction fractionation Mandibular Rumas and lateral mandibular.Use transparent material
Photosensitive resin 11122 is raw material, prints two component of Mandibular Rumas and body portion respectively by 3D printer RS4500;Using impermeable
Bright material photosensitive resin 8000 is raw material, prints impacted tooth by 3D printer RS4500.As shown in fig. 7, by impacted tooth component 1
It is printed with the one of Mandibular Rumas component 3, by Mandibular Rumas portion 2 and lateral mandibular 3 mutually with the first joinery and its construction 4 and the
The assembling of two joinery and its constructions 5, completes the assembling of the impacted tooth teaching mode of 3D printing described in the utility model.
Above-listed detailed description is illustrating for the utility model possible embodiments, and the embodiment is not to limit
The scope of the patents of the utility model, all equivalence enforcements or change without departing from carried out by the utility model, is intended to be limited solely by this case
In the scope of the patents.
Claims (2)
1. a kind of impacted tooth teaching mode of 3D printing, it is characterised in that: including showing different types of impacted tooth direction and knot
The monomer model of structure, each type of monomer model include transparent lower jaw osteogenic section and opaque impacted tooth component, mutually
It is assembled or is decoupled with click on fashion or one prints;The lower jaw osteogenic section is divided into Mandibular Rumas portion and lateral mandibular, mutually
Mutually with the first joinery and its construction and the assembling of the second joinery and its construction or partition.
2. the impacted tooth teaching mode of 3D printing according to claim 1, which is characterized in that the class of the impacted tooth component
Type is selected from following one: mesioangular impaction, distoangular impaction, vertical impaction, horizontal impaction, inverted impaction, buccoangular impaction and tongue
To impaction.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110264560A (en) * | 2019-05-17 | 2019-09-20 | 中山大学 | A kind of experimental provision and the device modeling method of the assembly of upper respiratory tract bumps Tenon |
KR20220109365A (en) * | 2019-10-10 | 2022-08-04 | 경희대학교 산학협력단 | A oral model and a method for the same |
TWI789006B (en) * | 2021-09-11 | 2023-01-01 | 國立臺北科技大學 | Diseased tooth prosthesis and method for making same with surrounding tooth base |
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2017
- 2017-12-15 CN CN201721754136.7U patent/CN208422226U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110264560A (en) * | 2019-05-17 | 2019-09-20 | 中山大学 | A kind of experimental provision and the device modeling method of the assembly of upper respiratory tract bumps Tenon |
CN110264560B (en) * | 2019-05-17 | 2023-05-23 | 中山大学 | Experimental device for assembling concave-convex mortise and tenon joints of upper respiratory tract and modeling method of device |
KR20220109365A (en) * | 2019-10-10 | 2022-08-04 | 경희대학교 산학협력단 | A oral model and a method for the same |
KR102476397B1 (en) | 2019-10-10 | 2022-12-09 | 경희대학교 산학협력단 | A oral model and a method for the same |
TWI789006B (en) * | 2021-09-11 | 2023-01-01 | 國立臺北科技大學 | Diseased tooth prosthesis and method for making same with surrounding tooth base |
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