KR102407250B1 - Lab Analog for Implant 3D Printing Models - Google Patents

Abstract

The present invention relates to a lab analog for an implant 3D printing model, and in providing a lab analog optimized for a 3D printing model rather than a plaster model for an implant, after inserting the lab analog from the lower part of the gum part made of a 3D printing model, the gum part It is a structure in which the abutment is inserted from the upper part and then the screw is fastened at the upper part of the gum part, and the lab analog inserted upward from the lower side and the screw inserted downward from the upper side are integrally fixed with the abutment interposed therebetween. In order to prevent deviation of the lab analog on the gum part by making it to be inserted, the lab analog 10 is inserted and fixed in the fastening hole 3 formed on the gum part 2 of the implant 3D printing model, and the lab analog 10 The abutment 30 coupled to the upper part of the abutment 30 is inserted through the upper portion of the abutment 30 and fixed to the lab analog 10 to determine the position of the abutment 30 on the lab analog 10 . A screw 50 for fixing and supporting is included, and the outer surface of the wrap analog 10 includes a cylindrical intermediate body 15 having a lower portion closed and an upper open hole 21, and the intermediate body portion ( 15) is formed on the upper side of the upper edge portion 11, and the lower side of the intermediate body portion 15, the lower side engaging in a quadrangular shape having a larger horizontal and vertical length than the diameter of the intermediate body portion (15) It consists of a part 19, and the inner surface of the wrap analog 10 includes a downward reduction inclined surface 11a formed on the inner surface of the upper edge portion 11, and a lower end of the downward reduction inclined surface 11a. A fixing surface 23 extending vertically downward, a first stepped portion 22 that is horizontally formed inwardly at the lower end of the fixing surface 23, and a first stepped portion on the lower side of the first stepped portion 22 ( 22) It is composed of a female screw part 26 formed vertically downward to be narrower, and the outer surface of the abutment 30 has an upper body 31 formed in a downwardly expanding form on the upper side, and the upper body 31 ), an intermediate body 35 is formed in a downwardly reduced form, and an inward horizontal stepped portion 36 is formed at the lower end of the intermediate body 35, and the inward facing water At the lower end of the flat stepped portion 36, an inclined portion 37 is formed in a downwardly reduced form, and a fixing portion 39 is formed vertically downward from the lower end of the inclined portion 37, and the abutment 30 ), a vertical through hole 42 is formed from the upper end 41 to the lower end 45, and an inwardly facing horizontal stepped portion 34 is formed on the inner surface of the vertical through hole 42, and the The screw 50 has a circular intermediate body portion 54 is formed, and is expanded to a larger diameter than the diameter of the intermediate body 54 on the upper side of the intermediate body 54 to form a horizontal stepped portion 53 on the lower side. A head 52 having a head 52 is formed, and a male screw portion 56 is formed on the lower side of the intermediate body 54 to vertically downward with a diameter smaller than the diameter of the intermediate body 54, and on the gum portion 2 A circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed to extend downwardly on the upper side, and a circular vertical engaging surface 7 is formed vertically downward from the lower end of the downwardly reduced inclined surface 4, and the On the lower side of the gum part 2, the lower engaging support groove 5 formed to correspond to the shape of the quadrangular lower engaging part 19 is formed to be larger than the diameter of the fastening hole 3, so that the lap analog (10) is inserted upward from the lower engaging support groove (5) side of the lower side of the gum part (2) to the upper side, and the intermediate body part (15) of the lap analog (10) is the vertical coupling surface of the gum part (2) ( 7) The lower end locking part 19 of the wrap analog 10 is supported to prevent rotation in the locking support groove 5 while in close contact with it, and the wrap analog 10 is inserted into the lower side of the gum part 2 In this state, the abutment 30 is inserted from the upper fastening hole 3 of the gum part 2 to the lower side, and the first of the lab analog 10 is closely coupled to the upper part of the lab analog 10 . The inward horizontal stepped portion 36 of the abutment 30 is seated and supported on the stepped portion 22 , and the fixing portion 39 of the abutment 30 is located within the fixing surface 23 of the lab analog 10 . ) is closely fixed, and the inclined contact portion 37 of the abutment 30 is closely supported on the downwardly reduced inclined surface 11a of the lap analog 10, By inserting the screw 50 into the upper inner side of the abutment 30, the horizontal stepped portion 53 of the screw 50 is seated and supported on the inward horizontal stepped portion 34 of the abutment 30, By making the male thread part 56 of the screw 50 fasten to the female thread part 26 of the lap analog 10, the lap analogue 10, the abutment 30 and the screw on the gum part 2 (50) is characterized in that it is configured to be integrally fixed.

Description

Lab Analog for Implant 3D Printing Models}

The present invention relates to a lab analog for an implant 3D printing model, and more particularly, in providing a lab analog optimized for a 3D printing model rather than a plaster model for an implant, inserting the lab analog from the lower part of the gum part made of a 3D printing model After doing this, the abutment is inserted at the upper part of the gum part and then the screw is fastened at the upper part of the gum part. It relates to a lab analog for an implant 3D printing model that prevents the lab analog from escaping on the gum portion by placing it in the gingival area and fixing it integrally.

In general, dental implants are supplied in different structures and shapes for each manufacturer or model, and there is a difference in the number of component parts included in a set constituting one dental implant.

A commonly used dental implant is a fixture that is planted on the patient's gums instead of its root, an abutment that is fixedly mounted on the upper part of the fixture, and wraps the upper part of the abutment to replace the patient's teeth. It is composed of a crown that On the other hand, if the necessary components are included in the stage before the dental implant is completely operated on the patient, Lab Analog and Healing Abutment are essential in addition to fixtures, abutments, and crowns. do.

For dental implants, it takes about 3 to 6 months for the fixtures planted in the patient's gums to heal, as well as the time constraint that it takes a considerable amount of time to fabricate a crown modeled in the shape of a patient's teeth undergoing dental implant treatment. , and the actual treatment and prescription are made by the dentist at the dentist, but the production of the crown to replace the patient's teeth is performed once in the middle of the complete treatment of the dental implant to the patient due to the spatial constraints made by the technician in the laboratory. Components such as lab analogs and healing abutments that are discarded after use are what is needed.

The lab analog, which is used once and discarded during the procedure of dental implants, has a structure similar to that of the fixture planted in the patient's gums, which is a process of processing the abutment and crown to be assembled into the fixture in the laboratory. In order to provide the same conditions as the fixtures planted on the patient's gums. In other words, the laboratory performs tasks such as machining the crown while the abutment is assembled to the lab analog instead of the fixture planted on the patient's gums, and when the crown modeling is completed, the abutment becomes the lab It is being transported from the laboratory to the dentist in the state of being assembled into analog.

This lab analog is usually inserted into the patient's gum from the top to the bottom, and the abutment and the screw are sequentially fastened from the top to the bottom side in the same direction in the lab analog. There was a problem in that the rap analog was deviated from within.

Patent Publication No. 10-2021-0141848

Accordingly, the present invention was created to eliminate the above problems, and in providing a lab analog optimized for a 3D printing model, not a plaster model for an implant, after inserting the lab analog from the lower part of the gum part made of a 3D printing model, It is a structure in which the abutment is inserted in the upper part of the gum part but then the screw is fastened in the upper part of the gum part. It was completed as a technical task with a focus on the lab analog for implant 3D printing model, which prevents the lab analog from escaping on the gum part by fixing it with

The present invention for achieving the above technical problem, in configuring the lab analog for the implant 3D printing model, the lab analog 10 that is inserted and fixed in the fastening hole 3 formed on the gum part 2 of the implant 3D printing model And, the abutment 30 coupled to the upper part of the lab analog 10, and the abutment 30, which is inserted through the upper part of the abutment 30 and fixed to the lab analog 10, is attached to the lab analog 10. It is made including a screw 50 for fixing and supporting the position of the butt 30, and the outer surface of the wrap analog 10 has a cylindrical middle body 15 with a closed lower portion and an upper open hole 21. ), and the upper border portion 11 formed on the upper side of the intermediate body portion 15, and the horizontal and vertical lengths greater than the diameter of the intermediate body portion 15 on the lower side of the intermediate body portion 15 It is composed of a lower engaging portion 19 having a quadrangular shape, and the inner surface of the wrap analog 10 includes a downwardly reduced inclined surface 11a formed on the inner surface of the upper edge portion 11, and the downward A fixing surface 23 extending vertically downward from the lower end of the reduced inclined surface 11a, a first stepped portion 22 formed horizontally inwardly at the lower end of the fixing surface 23, and the first stepped portion 22 It is composed of a female threaded portion 26 formed vertically downward to a smaller width than the first stepped portion 22 on the lower side, and the outer surface of the abutment 30 has an upper body 31 in a downwardly expanded form on the upper side. The intermediate body 35 is formed in a downwardly reduced form at the lower end of the upper body 31 , and an inward horizontal stepped portion 36 is formed at the lower end of the intermediate body 35 , and the inward horizontal stepped portion is formed. At the lower end of (36), the inclined portion 37 is formed in a downwardly reduced form, and the fixing portion 39 is vertically downwardly formed at the lower end of the inclined adhesion portion 37, and the abutment 30 of In the inner surface portion, a vertical through hole 42 is formed from the upper end side 41 to the lower end side 45, and an inward horizontal stepped portion 34 is formed on the inner surface of the vertical through hole 42, and the screw ( 50) is a circular intermediate body portion 54 is formed, the intermediate body A head portion 52 having a horizontal stepped portion 53 is formed on the lower side by extending to a larger diameter than the diameter of the intermediate body 54 on the upper side of the 54, and on the lower side of the intermediate body 54 The male thread part 56 is formed vertically downward with a diameter smaller than the diameter of the intermediate body 54, and the circular fastening hole 3 having a downwardly reduced inclined surface 4 on the upper side of the gum part 2 is downward. It is formed to extend, and a circular vertical engaging surface 7 is formed in a vertical downward direction from the lower end of the downward reduction inclined surface 4, and the lower end locking part 19 in the form of a quadrangle is formed on the lower side of the gum part 2 ), the lower engaging support groove 5 formed to correspond to the shape is formed to be larger than the diameter of the fastening hole 3 , and the lap analog 10 is located on the lower side of the lower engaging support groove 5 of the gum part 2 . The lower end of the wrap analog 10 in the locking support groove 5 while the intermediate body portion 15 of the lap analog 10 is in close contact with the vertical coupling surface 7 of the gum part 2 by being inserted upward from the top. The locking part 19 is supported so that rotation is prevented, and in a state where the wrap analog 10 is inserted into the lower side of the gum part 2, it moves from the upper fastening hole 3 of the gum part 2 to the lower side The inward horizontal stepped portion 36 of the abutment 30 is placed on the first stepped portion 22 of the wrap analog 10 while the abutment 30 is inserted and closely coupled to a portion of the upper side of the wrap analog 10 . ) is seated and supported, and the fixing part 39 of the abutment 30 is closely fixed within the fixing surface 23 of the wrap analog 10, and on the downwardly reduced inclined surface 11a of the wrap analog 10 The inclined portion 37 of the air abutment 30 is closely supported, and the horizontal stepped portion 53 of the screw 50 is formed by inserting the screw 50 into the upper inner side of the abutment 30 . The gum part is seated and supported on the inward horizontal stepped part 34 of the abutment 30 and the male thread part 56 of the screw 50 is fastened to the female thread part 26 of the lab analog 10 . Implant, characterized in that the lab analog 10, the abutment 30 and the screw 50 are integrally fixed on the (2) It provides lab analogs for 3D printed models.

At this time, a circumferential groove 13 of an inward concave shape is formed between the middle body 15 and the upper edge 11 of the wrap analog 10, and the middle body 15 and the lower end locking part ( 19), a close contact support groove portion 17 formed with a diameter smaller than the diameter of the intermediate body portion 15 is formed between the lap analog 10 and the lap analog 10 is in close contact with the vertical coupling surface 7 of the gum portion 2 In, it is characterized in that it is configured to be inserted and supported in the circumferential groove portion 13 and the close contact support groove portion 17 while the gum portion 2 is softened.

In addition, the upper edge portion 11 is formed to be smaller than the diameter of the middle body portion 15, so that in a state in which the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum portion 2, the It is characterized in that it is configured to be closely supported while surrounding the upper rim portion 11 and the circumferential groove portion 13 while the gum portion 2 is softened.

In addition, the fixing surface 23 formed on the inner surface of the wrap analog 10 and the fixing portion 39 formed on the outer surface of the abutment 30 each have at least a triangular shape corresponding to each other. It is formed and characterized in that it is configured to be fixed in close contact with each other in close contact with each other.

In addition, the horizontal direction of the fixing surface 23 formed in a square shape on the wrap analog 10 in order to be coupled in a state where a parallel state between the lab analog 10 and the accurate horizontal plane of the abutment 30 is maintained. One side 23-1 and one horizontal side parallel to the horizontal side 23-1 of the fixing surface 23 among the four sides of the lower end locking part 19 of the wrap analog 10 ( 19b), and one of the prismatic fixing parts 39 of the abutment 30 in the horizontal direction 39-1 is configured to be parallel to each other.

In addition, the lower stopper portion 19 is formed in a quadrangular shape, one of each of the quadrilateral faces is curved and extended outwardly extended to form a curved extension surface 19a, the gum portion 2 of It is characterized in that the lower end locking part 19 of the wrap analog 10 is flexibly inserted into the locking support groove 5 to maintain a close contact state.

And, the second stepped portion 24 is formed in an inward horizontal direction at a position that is spaced apart from the lower side of the first stepped portion 22 of the rap analog 10 and faces inward than the first stepped portion 22, It is characterized in that it is configured such that a stable double seating and fixing is made by allowing the downwardly extending part 39a formed on the lower side of the fixing part 39 of the butt 30 to be seated and fixed.

According to the present invention as described above, in providing a lab analog optimized for a 3D printing model rather than a plaster model for implants, the lab analog is inserted from the lower part of the gum part made of a 3D printing model, and then the abutment is abutted on the upper part of the gum part. As a structure for fastening the screw in the upper part of the gum part after insertion, the lab analog inserted upward from the lower side and the screw inserted downwardly from the upper side are integrally fixed with the abutment interposed therebetween, so that the lab analogue on the gum part There is an effect such as to prevent the departure of.

1 is a perspective embodiment of a lab analog for an implant 3D printing model according to the present invention
Figure 2 is an example of the disassembled state of the lab analog, abutment and screw according to the present invention
Figure 3 is a side cross-sectional embodiment of Figure 2
4 is a side cross-sectional embodiment of the coupled state of FIG. 3
5 to 8 are exemplary views sequentially showing a state in which the lab analog, the abutment and the screw are coupled in the gum portion according to the present invention;
9 and 10 are exemplary views of a modified embodiment according to the present invention
11 to 14 are diagrams in use according to the present invention

Hereinafter, specific details for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

The present invention provides a lab analog optimized for a 3D printing model, not a plaster model for implant, after inserting the lab analog from the lower part of the gum part made of a 3D printing model, and then inserting the abutment against the upper part of the gum part , As a structure for fastening the screw at the upper part of the gum part, the lap analog inserted upward from the lower side and the screw inserted downward from the upper side are integrally fixed with the abutment interposed therebetween to prevent separation of the lap analog on the gum part. As it relates to a lab analog for an implant 3D printing model to prevent it, referring to FIGS. 1 to 14 , the gum part 2, the lab analog 10, the abutment 30 and the screw ( 50) is included.

For the implementation of the present invention, first, as shown in FIG. 1 , a lab analog 10 that is inserted and fixed in the fastening hole 3 formed on the gum part 2 of the implant 3D printing model is provided.

The lab analog 10 is fixed on the gum part 2 of the implant 3D printing model instead of the fixture fixed to the gum, and is coupled to the upper part of the lab analog 10 as shown in FIGS. 2 and 3 . The abutment 30 and the screw ( 50) is further provided.

Looking at the configuration of the wrap analog 10 in detail, as shown in FIG. 2 , the outer surface of the wrap analog 10 includes a cylindrical middle body 15 with a closed lower portion and an upper open hole 21 ; An upper rim portion 11 formed on the upper side of the intermediate body portion 15, and a quadrangular shape having a horizontal and vertical length greater than the diameter of the intermediate body portion 15 on the lower side of the intermediate body portion 15 It is composed of a lower engaging portion (19) made of

In addition, as shown in FIG. 3 , the inner surface of the wrap analog 10 has a downward reduction inclined surface 11a formed on the inner surface of the upper edge 11 and a lower end of the downward reduction inclined surface 11a. A fixing surface 23 extending downward, a first stepped portion 22 formed inwardly horizontally at the lower end of the fixing surface 23 , and a first stepped portion 22 on a lower side of the first stepped portion 22 . ) is composed of a female threaded portion 26 formed vertically downward to a narrower width.

Meanwhile, an abutment 30 coupled to the upper side of the lab analog 10 is provided.

The outer surface of the abutment 30, the upper body 31 is formed in a downwardly expanding form on the upper side as shown in FIG. 2, and the intermediate body 35 in a downwardly reduced form at the lower end of the upper body 31 is formed, an inward horizontal stepped portion 36 is formed at the lower end of the intermediate body 35, and an inclined contact portion 37 is formed in a downwardly reduced form at the lower end of the inward horizontal stepped portion 36. A fixing part 39 is formed vertically downward from the lower end of the inclined contact part 37 .

In addition, the inner surface of the abutment 30, the vertical through-hole 42 is formed from the upper end 41 to the lower end 45, as shown in FIG. 3, on the inner surface of the vertical through-hole 42 The inwardly facing horizontal stepped portion 34 is formed.

Meanwhile, a screw 50 coupled from the upper side of the abutment 30 is provided.

The screw 50 has a circular intermediate body portion 54, as shown in FIG. 3, is extended to a larger diameter than the diameter of the intermediate body 54 on the upper side of the intermediate body 54, and is male on the lower side. A head portion 52 having a flat stepped portion 53 is formed, and a male screw portion 56 is formed vertically downward with a diameter smaller than the diameter of the intermediate body 54 on the lower side of the intermediate body 54 .

The gum part 2 to which the lab analog 10, the abutment 30, and the screw 50 are coupled has a downwardly reduced inclined surface 4 on the upper side on the gum part 2 as shown in FIG. A circular fastening hole (3) is formed to extend downward, and a circular vertical engaging surface (7) is formed in a vertical downward direction from the lower end of the downwardly reduced inclined surface (4), and the 4 above on the lower side of the gum part (2). The lower engaging support groove 5 formed to correspond to the shape of the lower engaging portion 19 of each shape is formed to be larger than the diameter of the fastening hole 3 .

In this state, as shown in FIGS. 5 and 14 , the wrap analog 10 is inserted upwardly from the lower locking support groove 5 side of the lower side of the gum part 2 to the upper side, and the intermediate body of the wrap analog 10 is Reference numeral 15 is closely attached to the vertical coupling surface 7 of the gum portion 2 and is supported so that the lower end locking part 19 of the wrap analog 10 is prevented from rotating in the locking support groove 5 .

At this time, as shown in FIGS. 11 and 12, the lower end locking part 19 is formed in a quadrangular shape, and one of each of the quadrilateral faces is curved and extended outwardly to form a curved extension surface 19a. , it can be configured so that the lower end locking part 19 of the wrap analog 10 is flexibly inserted into the locking support groove 5 of the gum part 2 to maintain a close contact state. In addition, it is preferable that the remaining three surfaces 19b, 19c, and 19d, except for the curved extended surface 19a, maintain a quadrangular shape perpendicular to each other in order to prevent mutual rotation.

In addition, as shown in FIGS. 6 and 7 , in the state where the wrap analog 10 is inserted into the lower side of the gum part 2, the abutment ( 30) is inserted and the inward horizontal stepped portion 36 of the abutment 30 is seated on the first stepped portion 22 of the wrap analog 10 while being coupled and closely coupled to a portion of the upper side of the wrap analog 10. It is supported, and the fixing part 39 of the abutment 30 is closely fixed within the fixing surface 23 of the wrap analog 10, and the abutment is on the downwardly reduced inclined surface 11a of the wrap analog 10. The inclined contact portion 37 of the ment 30 is closely supported.

And, as in FIGS. 7 and 8 , by inserting the screw 50 into the upper inner side of the abutment 30 , the horizontal stepped part 53 of the screw 50 is the inward of the abutment 30 . The lab analog 10 is mounted on the gum part 2 by being seated and supported on the flat stepped part 34 and fastening the male thread part 56 of the screw 50 to the female thread part 26 of the lab analog 10 . ), the abutment 30 and the screw 50 are configured to be integrally fixed.

In the present invention, as shown in FIGS. 2 and 3 , a circumferential groove 13 in an inward concave shape is formed between the middle body 15 and the upper edge 11 of the wrap analog 10, and the A close contact support groove 17 formed with a diameter smaller than the diameter of the intermediate body 15 is formed between the middle body 15 and the lower end locking part 19, so that the wrap analog 10 is connected to the gum part 2 It can be configured to be inserted and supported in the circumferential groove 13 and the close contact support groove 17 while the gum portion 2 is softened in a state in close contact with the vertical coupling surface 7 of the.

In addition, as shown in FIG. 7 , the upper edge portion 11 is formed to be smaller than the diameter of the intermediate body portion 15 , so that the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum portion 2 . In this state, while the gum portion 2 is softened, it can be configured to be closely supported while surrounding the upper rim portion 11 and the circumferential groove portion 13 .

On the other hand, as shown in FIGS. 2, 5 and 11 , the fixing surface 23 formed on the inner surface of the wrap analog 10 and the fixing portion 39 formed on the outer surface of the abutment 30 . Each may be formed in at least three or more angles corresponding to each other, and may be configured to be tightly fixed by the respective face portions in close contact with each other. At this time, in addition to the triangular angle, it may be formed in various angular shapes such as four, five, six, and eight angles.

In addition, as a modified embodiment of the present invention, as shown in FIG. 9 , a plurality of protrusions 16 having a height of 0.1 to 0.3 mm are formed on the surface of the intermediate body portion 15, so that the intermediate body portion 15 is When inserted into the vertical coupling surface 7 of the gum portion 2, the protrusion 16 is press-closed to the inner surface of the fastening hole 3, so that it can be configured to increase the mutual adhesion.

In addition, as shown in FIG. 10 , the second stepped portion 24 is spaced apart from the lower side of the first stepped portion 22 of the rap analog 10 in an inward horizontal direction at a position more inward than the first stepped portion 22 . It can be formed so that the downwardly extending portion 39a formed on the lower side of the fixing portion 39 of the abutment 30 is seated and fixed, so that a stable double seating and fixing can be achieved.

In addition, in order to be coupled in a state in which a parallel state between the lab analog 10 and the accurate horizontal plane of the abutment 30 is maintained, a fixed surface formed in a square shape on the lab analog 10 as shown in FIG. 23) parallel to one horizontal surface 23-1 and one horizontal surface 23-1 of the fixing surface 23 among the four surfaces of the lower end locking part 19 of the lap analog 10. It is preferable that one horizontal surface 19b and one horizontal surface 39-1 of the prismatic fixing part 39 of the abutment 30 are parallel to each other.

According to the lab analog for implant 3D printing model of the present invention as described above, in providing a lab analog optimized for a 3D printing model rather than a plaster model for an implant, the lab analog is inserted from the lower part of the gum part made of a 3D printing model. After that, the abutment is inserted in the upper part of the gum part and then the screw is fastened in the upper part of the gum part. It is possible to prevent detachment of the lap analog on the gum part by allowing the lap analog to be fixed integrally.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

2: gum part 3: upper fastening hole
5: lower jamming support groove 10: lap analog
11: upper edge part 13: peripheral groove part
15: middle body part 17: close contact support groove part
19: lower stopper 30: abutment
50: screw

Claims (7)

In composing the lab analog for the implant 3D printing model,
The lab analog 10 inserted and fixed in the fastening hole 3 formed on the gum part 2 of the implant 3D printing model, the abutment 30 coupled to the upper part of the lab analog 10, and the abutment It is inserted through the upper portion of the abutment 30 and is coupled and fixed to the wrap analog 10, and includes a screw 50 for fixing and supporting the position of the abutment 30 on the wrap analog 10,
The outer surface of the wrap analog 10 includes a cylindrical intermediate body 15 with a closed lower portion and an upper open hole 21 , and an upper rim portion 11 formed on the upper side of the intermediate body portion 15 . ) and the lower side of the intermediate body portion 15 is composed of a lower engaging portion 19 in the form of a quadrilateral having a larger horizontal and vertical length than the diameter of the intermediate body portion 15,
The inner surface of the wrap analog 10 includes a downwardly reduced inclined surface 11a formed on the inner surface of the upper edge 11 and a fixed surface 23 extending vertically downward from the lower end of the downwardly reduced inclined surface 11a. ) and a first stepped portion 22 that is horizontally formed inwardly at the lower end of the fixing surface 23, and formed vertically downwardly smaller than the first stepped portion 22 on the lower side of the first stepped portion 22 It is composed of a female threaded part 26,
The outer surface of the abutment 30, the upper body 31 is formed in a downwardly expanding form on the upper side, and an intermediate body 35 is formed in a downwardly reducing form at the lower end of the upper body 31, the At the lower end of the intermediate body 35, an inward horizontal stepped portion 36 is formed, and at the lower end of the inward horizontal stepped portion 36, an inclined contact portion 37 is formed in a downwardly reduced form, and the inclined portion 37 ), the fixing part 39 is formed vertically downward from the lower end,
On the inner surface of the abutment 30 , a vertical through hole 42 is formed from the upper end 41 to the lower end 45 , and an inward horizontal stepped portion 34 is formed on the inner surface of the vertical through hole 42 . ) is formed,
The screw 50 is formed with a circular intermediate body portion 54, and is expanded to a larger diameter than the diameter of the intermediate body 54 on the upper side of the intermediate body portion 54, and a horizontal stepped portion 53 on the lower side. ) is formed, and a male screw portion 56 is formed on the lower side of the intermediate body 54 to vertically downward with a diameter smaller than the diameter of the intermediate body 54,
A circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed to extend downwardly on the upper side of the gum portion 2, and a circular vertical engaging surface vertically downward from the lower end of the downwardly reduced inclined surface 4 ( 7) is formed, and the lower engaging support groove 5 formed to correspond to the shape of the quadrangular lower engaging portion 19 on the lower side of the gum portion 2 is smaller than the diameter of the fastening hole 3 . formed large,
The wrap analog 10 is inserted upwardly from the lower locking support groove 5 side of the lower side of the gum part 2 to the upper side, so that the middle body part 15 of the wrap analog 10 is perpendicular to the gum part 2 . While in close contact with the coupling surface 7, the lower engaging portion 19 of the wrap analog 10 is supported in the lower engaging support groove 5 to prevent rotation,
In a state where the lab analog 10 is inserted into the lower side of the gum part 2, the abutment 30 is inserted from the upper fastening hole 3 of the gum part 2 to the lower side, and the lab analog 10 is ), the inward horizontal stepped portion 36 of the abutment 30 is seated and supported on the first stepped portion 22 of the wrap analog 10 while being closely coupled to a portion of the upper side of the wrap analog 10. The fixing part 39 of the abutment 30 is closely fixed within the fixing surface 23, and the inclined adhesive part 37 of the abutment 30 is on the downwardly reduced inclined surface 11a of the wrap analog 10. ) is closely supported,
By inserting the screw 50 into the upper inner side of the abutment 30, the horizontal stepped portion 53 of the screw 50 is seated and supported on the inward horizontal stepped portion 34 of the abutment 30, By making the male thread part 56 of the screw 50 fasten to the female thread part 26 of the lap analog 10, the lap analogue 10, the abutment 30 and the screw on the gum part 2 (50) Lab analog for implant 3D printing model, characterized in that configured to be integrally fixed.
According to claim 1,
A circumferential groove 13 of an inward concave shape is formed between the middle body 15 and the upper edge 11 of the wrap analog 10, and the middle body 15 and the lower end locking part 19 are formed. A close contact support groove portion 17 formed with a diameter smaller than the diameter of the intermediate body portion 15 is formed therebetween,
In a state in which the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum part 2 , the gum part 2 is softened and inserted and supported in the peripheral groove 13 and the close contact support groove 17 . Lab analog for implant 3D printing model, characterized in that it constitutes.
3. The method of claim 2,
The upper rim portion 11 is formed to be smaller than the diameter of the intermediate body portion 15, so that in a state in which the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum portion 2, the gum portion Lab analog for implant 3D printing model, characterized in that it is configured to be closely supported while wrapping the upper rim portion 11 and the circumferential groove portion 13 while softening (2).
4. The method of claim 3,
The fixing surface 23 formed on the inner surface of the lab analog 10 and the fixing portion 39 formed on the outer surface of the abutment 30 are each formed in at least a triangular or more angular shape corresponding to each other, , Lab analog for implant 3D printing model, characterized in that it is configured to be tightly fixed by the face parts of each other in close contact with each other.
5. The method of claim 4,
One side in the transverse direction of the fixing surface 23 formed in a square shape on the wrap analog 10 so as to be coupled while maintaining a parallel state between the lab analog 10 and the accurate horizontal plane of the abutment 30 . (23-1), and one horizontal surface 19b parallel to the first horizontal surface 23-1 of the fixing surface 23 among the four surfaces of the lower engaging part 19 of the lap analog 10 And, the lab analog for implant 3D printing model, characterized in that the one side (39-1) in the horizontal direction of the prismatic fixing part (39) of the abutment (30) is configured to be parallel to each other.
6. The method of claim 5,
The lower engaging portion 19 is formed in a quadrangular shape, and one of each of the quadrilateral faces is formed with a curved extended surface 19a that is curved and extended outwardly, thereby supporting the engaging of the gum portion 2 Lab analog for implant 3D printing model, characterized in that the lower stopper 19 of the lab analog 10 is flexibly inserted into the groove 5 to maintain a close contact.
7. The method of claim 6,
A second stepped portion 24 is formed in an inward horizontal direction at a position that is spaced apart from the lower side of the first stepped portion 22 of the lab analog 10 and faces inward than the first stepped portion 22, so that the abutment Lab analog for implant 3D printing model, characterized in that it is configured to achieve stable double seating and fixing by allowing the downward extension (39a) formed on the lower side of the fixing part (39) of (30) to be seated and fixed.

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