KR102561679B1 - Healing Abutment for Implant Digital Lab Analog - Google Patents

Abstract

The present invention relates to a healing abutment for implant digital lab analog, in which the lab analog is inserted from the lower portion of the gum portion made of a 3D printed model, and then inserted from the upper portion of the gum portion to be fastened. In providing a healing abutment, the shape of the gum portion Lab analog 10 inserted and fixed into the fastening hole 3 formed on the gum part 2 of the implant 3D printing model so that the user can check the height of the healing abutment whose length is adjusted according to the fastening state The healing abutment 30 coupled to the top of the lab analog 10 and the lab analog 10 inserted through the top of the healing abutment 30 and coupled and fixed to the lab analog 10 It includes a screw 50 for fixing and supporting the position of the healing abutment 30 on the top, and the outer surface of the healing abutment 30 has a cylindrical head 31 formed on the upper side. And, at the lower end of the head part 31, an intermediate body 35 is formed inclined in a downwardly reduced form, and at the lower end of the intermediate body 35, the coupling body 37 is inclined more inward than the downward slope of the intermediate body 35. ) is formed, and a nut-shaped fixing part 39 is formed vertically downward at the lower end of the coupling body 37, and a curved surface part 33 that is reduced to be round upward at the upper edge side of the head part 31 Is formed, an upper horizontal surface portion 32 is formed on the upper portion of the curved surface portion 33, and a vertical through hole 32a into which the screw 50 is inserted is formed in the middle portion of the upper horizontal surface portion 32, , Vertically cut from the upper end side of the curved surface part 33 to the middle part side of the lower head part 31 to form the scan surface 34a in the vertical direction, and the outer horizontal direction from the lower end of the scan surface 34a A scan sensing unit 34 having a stepped portion 34b is formed, excluding the scan sensing unit 34 within the range from the upper end side of the curved surface portion 33 to the upper portion of the lower head portion 31. An oblique height confirmation part 41 cut obliquely is formed on the range, and the oblique height confirmation part 41 is formed at a corresponding position along the length of the intermediate body 35 of the healing abutment 30. It is characterized in that it is configured to be.

Description

Healing Abutment for Implant Digital Lab Analog

The present invention relates to a healing abutment for an implant digital lab analog, and more particularly, to provide a healing abutment that is fastened by inserting a lab analog from the lower part of the gum part made of a 3D printed model and then inserting it from the upper part of the gum part. The present invention relates to a healing abutment for an analog implant digital lab, which allows a user to check the height of the healing abutment, the length of which is adjusted according to the shape of the gum portion, in a fastened state.

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

Commonly used dental implants include a fixture planted on the patient's gums in place of the tooth root, an abutment fixedly mounted on the top of the fixture, and a replacement for the patient's teeth by covering the upper part of the abutment. It consists 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, in addition to the fixture, abutment, and crown, Lab Analog and Healing Abutment are necessarily included. do.

Dental implants are time constraints that not only take about 3 to 6 months for the fixtures implanted in the patient's gums to heal, but also take a considerable amount of time to manufacture a crown modeled in the shape of the teeth of the patient undergoing dental implants. , And the actual treatment and prescription are performed by the dentist in the dentistry, but the manufacturing of the crown to replace the patient's tooth is done once in the middle of the dental implant is completely placed on the patient due to the space constraints made by the technician in the laboratory. Components such as lab analogs and healing abutments that are discarded after use are needed.

The lab analog, which is used once and discarded in the dental implant procedure, has a structure similar to the fixture planted on the patient's gums, which is the process of processing an abutment and crown to be assembled to the fixture in a laboratory. This is to ensure that the same conditions as those of the fixture planted in the patient's gums can be provided. In other words, the laboratory performs operations such as processing the crown while assembling the abutment into the lab analog instead of the fixture planted in the patient's gums, and after the modeling of the crown is completed, the abutment is placed in the lab. It is being transported from the laboratory to the dentist in the state of being assembled in analog.

The insertion depth of the healing abutment used in this lab analog differs according to the shape of the gum, and the length of the healing abutment to be used varies accordingly. At this time, the length of the healing abutment is usually 3, It is divided into various types such as 5, 7, 9, 11 and 13 mm.

However, since the user (worker) cannot check at a glance the required length among the various lengths of the healing abutment, it is inconvenient to measure and check the length individually, and also the lab analog to which the healing abutment is fastened. The length of is different, and since it is difficult for the user to check it in the state where the healing abutment is fastened on the lab analog, there is a problem in selecting a working environment and tools suitable for the length.

Registered Patent No. 10-2407250 Registered Patent No. 10-1535294

Accordingly, the present invention was invented to eliminate the above problems, in providing a healing abutment in which a lab analog is inserted from the lower part of the gum part made of a 3D printed model and then inserted from the upper part of the gum part and fastened. It was completed as a technical task with a focus on the healing abutment for implant digital lab analog, which allows the user to check the height of the healing abutment whose length is adjusted according to the tightening state.

In the present invention for achieving the above technical problem, in configuring the healing abutment for implant digital lab analog, the lab analog inserted and fixed into the fastening hole 3 formed on the gum portion 2 of the implant 3D printing model ( 10), the healing abutment 30 coupled to the upper part of the wrap analog 10, and the wrap analog ( 10), including a screw 50 for fixing and supporting the position of the healing abutment 30 on the upper side, the outer surface of the healing abutment 30 has a cylindrical head portion 31 on the upper side Is formed, the intermediate body 35 is formed inclined in a downwardly reduced form at the lower end of the head portion 31, and the coupling body is inclined more inward than the downward slope of the intermediate body 35 at the lower end of the intermediate body 35 37 is formed, a nut-shaped fixing part 39 is formed vertically downward at the lower end of the coupling body 37, and a curved surface portion that is reduced to be round upward at the upper edge side of the head part 31 ( 33) is formed, an upper horizontal surface portion 32 is formed on the upper portion of the curved surface portion 33, and a vertical through hole 32a into which the screw 50 is inserted is formed in the middle portion of the upper horizontal surface portion 32. formed, and is vertically cut from the upper end side of the curved surface part 33 to the middle part side of the lower head part 31 to form the scan surface 34a in the vertical direction, and the outer side from the lower end of the scan surface 34a. A scan sensing unit 34 having a stepped portion 34b in the horizontal direction is formed, and the scan sensing unit 34 is formed within a range from the upper end side of the curved surface part 33 to the upper part side of the lower head part 31. An oblique height confirmation part 41 cut obliquely is formed on the range excluding It is configured to be formed in, and the length (L) of the intermediate body 35 is 3 mm (L1), 5 mm (L2), 7 mm (L3), 9 mm (L4), 11 mm (L5), 13 mm (L6) is formed in six shapes, and when the length (L) of the intermediate body 35 is 3 mm (L1), the height confirmation unit 41 is displayed only by the scan detection unit 34, and the intermediate When the length (L) of the body 35 is 5 mm (L2), the height confirmation unit 41 is formed at a position of 60 ° relative to the scan sensing unit 34 at 0 °, and the intermediate body 35 When the length (L) is 7 mm (L3), the height confirmation unit 41 is formed at a position of 120 ° relative to the scan sensing unit 34 at 0 °, and the length (L) of the intermediate body 35 is In the case of 9 mm (L4), the height confirmation unit 41 is formed at a 180 ° position relative to the scan sensing unit 34 at 0 °, and the length (L) of the intermediate body 35 is 11 mm (L5) If the height check unit 41 is formed at a 240 ° position with respect to the scan sensing unit 34 at 0 °, and the length L of the intermediate body 35 is 13 mm (L6), the height check unit (41) configures the scan sensing unit 34 to be formed at a position of 300 ° relative to 0 °, and the outer surface of the lab analog 10 has a cylindrical middle with a closed bottom and an upper open hole 121 The body portion 111, the curved groove portion 112 formed radially at regular intervals in the outer circumferential direction of the intermediate body portion 111 and formed in the longitudinal direction of the intermediate body portion 111, and the intermediate body portion 111 Consists of an upper edge portion 115 formed on the upper side of the ) and a lower hanging portion 119 formed in a circular or polygonal shape larger than the diameter of the intermediate body portion 111 on the lower side of the intermediate body portion 111. The inner surface of the lab analog 10 includes a downwardly reduced inclined surface 115b formed on the inner surface of the upper edge portion 115 and a fixed surface extending vertically downward from the lower end of the downwardly reduced inclined surface 115b. (23), a first stepped portion 22 formed horizontally inwardly at the lower end of the fixing surface 23, and a lower vertical side than the first stepped portion 22 on the lower side of the first stepped portion 22 It consists of a female screw portion 26 formed downward, and the screw 50 is formed with a circular intermediate body portion 54, the upper side of the intermediate body portion 54 is larger than the diameter of the intermediate body portion 54. It expands to a large diameter to form a head portion 52 having a horizontal stepped portion 53 on the lower side, and vertically downward with a diameter smaller than the diameter of the intermediate body portion 54 on the lower side of the intermediate body portion 54. A male screw portion 56 is formed, and a circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed extending downward on the upper side of the gum portion 2, and the lower end of the downwardly reduced inclined surface 4 A circular vertical coupling surface 7 is formed vertically downward, and a lower hanging support groove formed to correspond to the shape of the circular or polygonal lower hanging portion 119 on the lower side of the gum portion 2 ( 5) is formed larger than the diameter of the fastening hole 3, so that the wrap analog 10 is inserted upward from the lower locking support groove 5 side of the lower side of the gum portion 2 to the upper side to form the wrap analog 10 The middle body part 111 is held in close contact with the vertical coupling surface 7 of the gum part 2 so that the lower hooking part 119 of the wrap analog 10 is prevented from rotating in the lower hooking support groove 5 In the state of being, while the gum part 2 is softened, it expands and adheres to the curved groove 112 radially formed on the middle body part 111, and wrap analog 10 on the lower side of the gum part 2 In the inserted state, the abutment 30 is inserted from the fastening hole 3 on the upper side of the gum part 2 to the lower side, and the abutment 30 is tightly coupled to a part of the upper side of the wrap analog 10, The bottom surface of the fixing part 39 of the abutment 30 is seated and supported on the first stepped part 22, and the healing abutment 30 is installed in the fixing surface 23 of the lab analog 10. The outer surface of the top 39 is tightly fixed, and the coupling body 37 of the healing abutment 30 is closely supported on the downwardly reduced inclined surface 115b of the lab analog 10, and the healing abutment 30 ) By inserting the screw 50 into the upper part of the screw 50, the horizontal stepped portion 53 of the screw 50 is seated and supported by the inward horizontal stepped portion 38 of the healing abutment 30, and the screw 50 By fastening the male screw part 56 to the female screw part 26 of the wrap analog 10, the wrap analog 10, the healing abutment 30 and the screw 50 are formed on the gum part 2. It is configured to be integrally fixed, and the outer periphery of the intermediate body portion 111 has a cylindrical shape, and the outer periphery remains between each of the plurality of curved grooves 112 arranged in the circumferential direction of the outer circumference of the intermediate body portion 111 The outer circumference remaining material surface 191 is formed so that the outer circumferential remaining material surface 191 is in close contact with the inner surface of the gum portion 2, and a plurality of fine grooves 112a are formed on each surface of the curved groove part 112 Is further formed so that the gum portion 2 is softened and more closely expanded and adhered to the microgrooves 112a, formed at the bottom of the plurality of microgrooves 112a formed on the surface of the curved grooves 112 A horizontal through hole 112c passing through the middle body 111 in the horizontal direction is formed on the lower side of the fine groove 112a so that the softened gum part 2 can be expanded and inserted into close contact, and the lower hanging part 119 Implant digital, characterized in that a vertical through hole (112d) penetrating in the vertical direction is further formed on the side of the protruding edge of the ) so that the gum portion (2) to be softened is expanded and inserted closely to secure mutual coupling stability. Healing abutment for lab analog is provided.

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According to the present invention described above, in providing a healing abutment that is fastened by inserting a wrap analog from the lower part of the gum part made of a 3D printing model and then inserting it from the upper part of the gum part, the healing abutment is adjusted in length according to the shape of the gum part There is an effect such that the user can check the height of the fastened state.

1 is an exemplary view of the use of a healing abutment for analog implant digital lab according to the present invention
2 and 3 are examples of a healing abutment according to the present invention
4 to 11 are various exemplary embodiments according to the present invention

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

The present invention provides a healing abutment that is fastened by inserting a wrap analog from the lower part of the gum part made of a 3D printing model and then inserting it from the upper part of the gum part. It relates to a healing abutment for implant digital lab analog that allows the user to check in the fastened state. Referring to FIGS. 1 to 11, the gum portion 2 of the implant 3D printing model, the lab analog 10, and the healing It consists of an abutment 30 and a screw 50.

For the implementation of the present invention, first, as shown in FIG. 1, a lab analog 10 inserted and fixed into the fastening hole 3 formed on the gum portion 2 of the implant 3D printing model, and the upper portion of the lab analog 10 The combined healing abutment 30 and the healing abutment 30 are inserted into the upper part of the healing abutment 30 and coupled and fixed to the lab analog 10 to determine the position of the healing abutment 30 on the lab analog 10. A screw 50 for fixing support is provided.

The lab analog 10 is fixed on the gum portion 2 of the implant 3D printing model instead of a fixture fixed to the gum. As shown in FIGS. 4 and 5, the outer surface of the lab analog 10 has a lower A cylindrical intermediate body portion 15 closed and having an upper open hole 21, an upper edge portion 11 formed on the upper side of the intermediate body portion 15, and a lower portion of the intermediate body portion 15 It consists of a lower hanging portion 19 in the form of a square having a horizontal and vertical length greater than the diameter of the middle body portion 15 on the side.

In addition, the inner surface of the lab analog 10 includes a downwardly reduced inclined surface 11a formed on the inner surface of the upper edge portion 11 and a fixed surface extending vertically downward from the lower end of the downwardly reduced inclined surface 11a. (23), a first stepped portion 22 formed horizontally inwardly at the lower end of the fixing surface 23, and a lower vertical side than the first stepped portion 22 on the lower side of the first stepped portion 22 It is composed of a female screw portion 26 formed downward.

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

As shown in FIGS. 1 and 2, the outer surface of the healing abutment 30 has a cylindrical head 31 formed on the upper side, and is inclined downwardly at the lower end of the head 31. An intermediate body 35 is formed, and a coupling body 37 is formed with a more inward slope than the downward slope of the intermediate body 35 at the lower end of the intermediate body 35, and a vertical downward slope at the lower end of the coupling body 37. As a nut-shaped fixing portion 39 is formed.

In addition, a curved surface portion 33 is formed on the upper edge side of the head portion 31 and is reduced in an upward round shape, and an upper horizontal surface portion 32 is formed on the upper portion of the curved surface portion 33, and the upper horizontal surface portion is formed. A vertical through hole 32a into which the screw 50 is inserted is formed in the middle of the 32, and is vertically cut from the upper end of the curved surface 33 to the middle of the lower head 31 in the vertical direction. As a result, a scan surface 34a is formed, and a scan detection unit 34 having a stepped portion 34b is formed in the outer horizontal direction from the lower end of the scan surface 34a.

Also, the healing abutment 30 operates the scan sensing unit 34 within a range from the upper end side of the curved surface part 33 to a part of the upper part side of the lower head part 31 as shown in FIGS. 2 and 3 . An oblique height confirmation unit 41 that is cut obliquely is formed on the excluded range, and the oblique height confirmation unit 41 is located at a corresponding position along the length of the intermediate body 35 of the healing abutment 30. configured to form.

Looking at this in more detail with reference to Figure 2, as in ①, when the shape of the head portion 31 excluding the scan sensing unit 34 is only a cylindrical shape, the length L1 of the intermediate body 35 is 3 mm, As in ②, when the oblique height confirmation part 41 is formed in three places at 90 ° intervals on the upper edge of the head part 31, the length L2 of the intermediate body 35 is 5 mm, as in ③ When the oblique height checking part 41 is formed in five places at 60° intervals on the upper edge of the head part 31, the length L3 of the intermediate body 35 is 7 mm.

And, as in ④, when the shape of the head part 31 is only cylindrical, and the annular groove part 31a is formed on the lower side of the scan sensing part 34 along the circumferential direction of the head part 31. The length L4 of the intermediate body 35 is 9 mm, and the length of the intermediate body 35 when, as in ⑤, the oblique height confirmation portion 41 is formed in three places at 90 ° intervals together with the annular groove portion 31a. (L5) is 11 mm, and the length (L6) of the intermediate body 35 is 13 mm when the diagonal height confirmation part 41 is formed in five places at 60 ° intervals together with the annular groove part 31a as in ⑥. .

As these six different shapes, it is possible to visually check the length (L1 to L6, 3 to 13 mm) of the intermediate body 35 at a glance.

As another method of visually checking the length of the intermediate body 35, looking at this in more detail with reference to FIG. 3, the length (L) of the intermediate body 35 is 3 mm (L1), 5 mm (L2) ), 7 mm (L3), 9 mm (L4), 11 mm (L5), and 13 mm (L6) are formed in six shapes, and the length (L) of the intermediate body 35 is 3 mm (L1 ), the height confirmation unit 41 is displayed only by the scan detection unit 34, and when the length L of the intermediate body 35 is 5 mm (L2), the height confirmation unit 41 is the scan detection unit ( 34) is formed at a position of 60 ° based on 0 °, and when the length (L) of the intermediate body 35 is 7 mm (L3), the height confirmation unit 41 sets the scan detection unit 34 to 0 ° It is formed at a position of 120 ° as a reference, and when the length (L) of the intermediate body 35 is 9 mm (L4), the height confirmation unit 41 is 180 ° relative to the scan sensing unit 34 at 0 ° formed at the position, when the length (L) of the intermediate body 35 is 11 mm (L5), the height confirmation unit 41 is formed at a position of 240 ° relative to the scan detection unit 34 at 0 °, When the length (L) of the intermediate body 35 is 13 mm (L6), the height confirmation unit 41 is configured to be formed at a position of 300 ° relative to the scan detection unit 34 at 0 °.

As another embodiment thereof, the length (L) of the intermediate body 35 is formed in four forms having 3 mm (L1), 7 mm (L2), 11 mm (L3), and 13 mm (L4), When the length (L) of the intermediate body 35 is 3 mm (L1), the height confirmation unit 41 is displayed only by the scan sensing unit 34, and the length (L) of the intermediate body 35 is 7 mm In the case of (L2), the height confirmation unit 41 is formed at a 90 ° position with respect to the scan sensing unit 34 at 0 °, and the length L of the intermediate body 35 is 11 mm (L3) The height confirmation unit 41 is formed at a position of 180 ° relative to the scan detection unit 34 at 0 °, and when the length L of the intermediate body 35 is 13 mm (L4), the height confirmation unit 41 ) is configured to be formed at a position of 270 ° with respect to the scan sensing unit 34 at 0 °.

At this time, as shown in FIG. 3, the height confirmation unit 41 is formed by accumulating previous height confirmation units 41 whenever the angle increases.

On the other hand, the screw 50 has a circular intermediate body portion 54 formed as shown in FIGS. 1 and 7, and a diameter larger than the diameter of the intermediate body portion 54 on the upper side of the intermediate body portion 54. It is expanded to form a head portion 52 having a horizontal stepped portion 53 on the lower side, and can be vertically downward with a diameter smaller than the diameter of the intermediate body portion 54 on the lower side of the intermediate body portion 54. A threaded portion 56 is formed.

As the configuration of the screw 50, as shown in FIGS. 8 and 9, a circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed extending downward on the upper side of the gum portion 2, and the downwardly reduced A circular vertical coupling surface 7 is formed vertically downward from the lower end of the inclined surface 4, and is formed to correspond to the shape of the lower hanging part 19 in the form of a square on the lower side of the gum part 2. In a state where the lower catching groove 5 is formed larger than the diameter of the fastening hole 3, the wrap analog 10 is inserted upward from the lower catching groove 5 side of the gum part 2 to the upper side. Thus, the middle body part 15 of the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum part 2, and the lower hanging part 19 of the wrap analog 10 is in the lower hanging support groove 5 It is configured to be supported so as to prevent rotation.

Then, in the state where the wrap analog 10 is inserted into the lower side of the gum portion 2, the healing abutment 30 is inserted from the upper side fastening hole 3 of the gum portion 2 to the lower side to perform the wrap The bottom surface of the fixing part 39 of the healing abutment 30 is seated and supported on the first step 22 of the lab analog 10 while being closely coupled to a part of the upper side of the analog 10, and the lab analog 10 is seated and supported. The outer surface of the fixing part 39 of the healing abutment 30 is closely fixed within the fixing surface 23 of (10), and the healing abutment 30 is placed on the downwardly reduced inclined surface 11a of the lab analog 10. The coupling body 37 of ) is closely supported, and the screw 50 is inserted into the upper inner side of the healing abutment 30 so that the horizontal stepped portion 53 of the screw 50 is the healing abutment 30 ) is seated and supported on the inward horizontal stepped part 38, and the male screw part 56 of the screw 50 is fastened to the female screw part 26 of the lab analog 10, so that on the gum part 2 The wrap analog 10, the healing abutment 30, and the screw 50 are integrally fixed.

In addition, an inwardly recessed circumferential groove 13 is formed between the middle body 15 and the upper edge portion 11 of the wrap analog 10, and the middle body 15 and the lower hanging portion ( 19), a close contact support groove 17 formed with a smaller diameter than the diameter of the intermediate body 15 is formed between them, so that the wrap analog 10 is in close contact with the vertical coupling surface 7 of the gum part 2 In, while the gum portion 2 is softened, it is inserted and supported in the circumferential groove portion 13 and the close support groove portion 17, and the upper edge portion 11 is formed smaller than the diameter of the middle body portion 15, , While 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 while covering the upper edge part 11 and the circumferential groove part 13 It is structured so that it is tightly supported.

As another embodiment, the wrap analog 10 of the present invention may be configured in the same form as shown in FIGS. 10 and 11. At this time, the outer surface of the wrap analog 10 has a closed bottom and an upper open hole 121. A cylindrical intermediate body portion 111 having, a curved groove portion 112 formed radially at regular intervals in the outer circumferential direction of the intermediate body portion 111 and formed in the longitudinal direction of the intermediate body portion 111; An upper edge portion 115 formed on the upper side of the body portion 111 and a lower hanging portion formed in a circular or polygonal shape larger than the diameter of the intermediate body portion 111 on the lower side of the intermediate body portion 111 ( 119), and the inner surface of the lab analog 10 includes a downward reduction slope 115b formed on the inner surface of the upper edge portion 115, and a vertical downward slope at the lower end of the downward reduction slope 115b. The extending fixing surface 23, the first stepped portion 22 formed horizontally inwardly at the lower end of the fixing surface 23, and the first stepped portion 22 on the lower side of the first stepped portion 22 It consists of a female screw portion 26 formed vertically downward with a smaller width.

In addition, the screw 50 is formed with a circular intermediate body portion 54, the upper side of the intermediate body portion 54 is expanded to a larger diameter than the diameter of the intermediate body portion 54, the horizontal end on the lower side A head portion 52 having a jaw 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 portion 54 on the lower side of the intermediate body portion 54, On the upper side of the gum portion 2, a circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed extending downward, and a circular vertical coupling surface vertically downward from the lower end of the downwardly reduced inclined surface 4 ( 7) is formed, and the lower hanging support groove 5 formed to correspond to the shape of the circular or polygonal lower hanging part 119 on the lower side of the gum part 2 has a diameter of the fastening hole 3 formed larger.

Then, the wrap analog 10 is inserted upward from the lower hanging support groove 5 side of the lower side of the gum part 2 to the upper side, so that the middle body 111 of the wrap analog 10 is the gum part 2 In a state where the lower hanging part 119 of the wrap analog 10 is prevented from rotating in the lower hanging support groove 5 while being in close contact with the vertical coupling surface 7 of the gum part 2 is softened The upper side of the gum portion 2 in a state in which the wrap analog 10 is inserted into the lower side of the gum portion 2 and expanded and adhered to the curved groove portion 112 formed radially on the middle body portion 111. The abutment (30) is inserted from the fastening hole (3) to the lower side, and the abutment ( The bottom surface of the fixing part 39 of 30) is seated and supported, and the outer surface of the fixing part 39 of the healing abutment 30 is closely fixed within the fixing surface 23 of the wrap analog 10, and the wrap analog The coupling body 37 of the healing abutment 30 is closely supported on the downwardly reduced inclined surface 115b of (10), and the screw 50 is inserted into the upper part of the healing abutment 30 to The horizontal stepped portion 53 of the screw 50 is seated and supported on the inward horizontal stepped portion 38 of the healing abutment 30, and the male screw portion 56 of the screw 50 is of the lab analog 10. By fastening to the female screw portion 26, the wrap analog 10, the healing abutment 30, and the screw 50 are integrally fixed on the gum portion 2.

At this time, the outer periphery of the intermediate body portion 111 is in the form of a cylinder, and as shown in FIG. The remaining outer circumference remaining material surface 191 is formed so that the outer circumferential remaining material surface 191 is in close contact with the inner surface of the gum portion 2, and a plurality of fine grooves 112a are formed on each surface of the curved groove part 112. ) is further formed so that the gum portion 2 is softened and expanded and closely adhered to the fine groove portion 112a, but as shown in FIG. 11, a plurality of fine groove portions 112a formed on the surface of the curved groove portion 112. ), a horizontal through hole 112c penetrating the middle body 111 in the horizontal direction is formed on the lower side of the microgroove 112a formed at the lower end of the lower part to allow the softened gum part 2 to expand and insert, A vertical through hole 112d penetrating in the vertical direction is further formed on the side of the protruding edge of the lower hanging part 119 so that the softened gum part 2 is expanded and inserted into close contact to secure mutual coupling stability. .

According to the healing abutment for implant digital lab analog of the present invention as described above, in providing a healing abutment that is fastened by inserting the lab analog from the lower part of the gum part made of a 3D printed model and then inserting it from the upper part of the gum part , The user can check the height of the healing abutment, the length of which is adjusted according to the shape of the gum part, in a fastened state.

The present invention described above has been described with reference to one embodiment shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments therefrom. will have to be clarified. Therefore, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

2: gum portion 3: fastening hole
10: Lab Analog 30: Healing Abutment
31: head part 32: upper horizontal surface part
33: curved surface unit 34: scan detection unit
35: intermediate body 37: combined body
39: fixing part 41: oblique height confirmation part
50: screw

Claims (7)

In constructing a healing abutment for implant digital lab analog,
A lab analog 10 inserted and fixed into a fastening hole 3 formed on the gum portion 2 of the implant 3D printing model, a healing abutment 30 coupled to the upper portion of the lab analog 10, A screw 50 is inserted into the upper part of the healing abutment 30 and coupled and fixed to the lab analog 10 to fix and support the position of the healing abutment 30 on the lab analog 10. ,
On the outer surface of the healing abutment 30, a cylindrical head portion 31 is formed on the upper side, and an intermediate body 35 is formed at the lower end of the head portion 31 to be inclined in a downwardly reduced form. , At the lower end of the intermediate body 35, the coupling body 37 is formed with a more inward slope than the downward slope of the intermediate body 35, and the nut-shaped fixing portion 39 vertically downwards at the lower end of the coupling body 37 ) is formed,
A curved surface portion 33 is formed on the upper edge side of the head portion 31 and is reduced in an upward round shape, and an upper horizontal surface portion 32 is formed on the upper portion of the curved surface portion 33, and the upper horizontal surface portion 32 A vertical through-hole 32a into which the screw 50 is inserted is formed in the middle of the ), and is vertically cut from the upper end of the curved surface 33 to the middle of the lower head 31 to be scanned in the vertical direction. In addition to the formation of the surface 34a, a scan sensing unit 34 having a stepped portion 34b is formed in the outer horizontal direction from the lower end of the scan surface 34a,
An oblique height confirmation unit 41 is formed that is cut obliquely on the range excluding the scan sensing unit 34 within the range from the upper end side of the curved surface unit 33 to the upper part side of the lower head unit 31, , The oblique height confirmation unit 41 is configured to be formed at a corresponding position along the length of the intermediate body 35 of the healing abutment 30,
The length (L) of the intermediate body 35 is 6 with 3 mm (L1), 5 mm (L2), 7 mm (L3), 9 mm (L4), 11 mm (L5), 13 mm (L6) It is formed in the form of a branch, and when the length (L) of the intermediate body 35 is 3 mm (L1), the height confirmation unit 41 is displayed only by the scan sensing unit 34, and the length of the intermediate body 35 When (L) is 5 mm (L2), the height confirmation unit 41 is formed at a position of 60 ° relative to the scan detection unit 34 at 0 °, and the length L of the intermediate body 35 is 7 In the case of mm (L3), the height confirmation unit 41 is formed at a position of 120 ° with respect to the scan sensing unit 34 at 0 °, and the length (L) of the intermediate body 35 is 9 mm (L4) In this case, the height confirmation unit 41 is formed at a position of 180 ° relative to the scan detection unit 34 at 0 °, and when the length L of the intermediate body 35 is 11 mm (L5), the height confirmation unit ( 41) is formed at a position of 240 ° relative to the scan detection unit 34 at 0 °, and when the length L of the intermediate body 35 is 13 mm (L6), the height confirmation unit 41 detects the scan The part 34 is configured to be formed at a position of 300 ° based on 0 °,
The outer surface of the wrap analog 10 is formed in a radial shape at regular intervals in the outer circumferential direction of the cylindrical intermediate body 111 having a closed bottom and an upper open hole 121, A curved groove 112 formed in the longitudinal direction of the intermediate body 111, an upper edge portion 115 formed on the upper side of the intermediate body 111, and a lower side of the intermediate body 111 It consists of a lower hanging part 119 in a circular or polygonal shape larger than the diameter of the middle body part 111,
The inner surface of the lab analog 10 includes a downwardly reduced inclined surface 115b formed on the inner surface of the upper edge portion 115 and a fixed surface 23 extending vertically downward from the lower end of the downwardly reduced inclined surface 115b. ), a first stepped portion 22 formed horizontally inwardly at the lower end of the fixing surface 23, and formed vertically downward with a smaller width than the first stepped portion 22 on the lower side of the first stepped portion 22 It is composed of a female screw portion 26,
The screw 50 is formed with a circular intermediate body portion 54, is extended to a larger diameter than the diameter of the intermediate body portion 54 on the upper side of the intermediate body portion 54, horizontal stepped portion on the lower side ( 53) is formed, and a male screw portion 56 is formed vertically downward with a diameter smaller than the diameter of the intermediate body portion 54 on the lower side of the intermediate body portion 54,
On the upper side of the gum portion 2, a circular fastening hole 3 having a downwardly reduced inclined surface 4 is formed extending downward, and a circular vertical coupling surface vertically downward from the lower end of the downwardly reduced inclined surface 4 ( 7) is formed, and the lower hanging support groove 5 formed to correspond to the shape of the circular or polygonal lower hanging part 119 on the lower side of the gum part 2 has a diameter of the fastening hole 3 formed larger,
The wrap analog 10 is inserted upward from the lower hanging support groove 5 side of the lower side of the gum portion 2 to the upper side, so that the middle body 111 of the wrap analog 10 is perpendicular to the gum portion 2. In a state in which the lower hanging part 119 of the wrap analog 10 is held in the lower hanging support groove 5 while being in close contact with the coupling surface 7 so as to prevent rotation, the gum part 2 is softened and the middle body It expands and adheres to the curved groove portion 112 formed radially on the portion 111,
In the state where the wrap analog 10 is inserted into the lower side of the gum portion 2, the abutment 30 is inserted from the fastening hole 3 on the upper side of the gum portion 2 to the lower side, so that the wrap analog 10 ), the bottom surface of the fixing part 39 of the abutment 30 is seated and supported on the first step 22 of the lab analog 10 while being closely coupled to a part of the upper side of the lab analog 10. The outer surface of the fixing part 39 of the healing abutment 30 is tightly fixed in the fixing surface 23, and the coupling body of the healing abutment 30 on the downwardly reduced inclined surface 115b of the lab analog 10 (37) is closely supported,
By inserting the screw 50 into the upper part of the healing abutment 30, the horizontal stepped portion 53 of the screw 50 is seated and supported by the inward horizontal stepped portion 38 of the healing abutment 30. and the male screw part 56 of the screw 50 is fastened to the female screw part 26 of the wrap analog 10, so that the wrap analog 10 and the healing abutment 30 on the gum part 2 ) and the screw 50 are configured to be integrally fixed,
The outer circumference of the intermediate body 111 has a cylindrical shape, and the outer circumferential surface 191 remains between the plurality of curved grooves 112 arranged in the circumferential direction of the outer circumference of the intermediate body 111 ) is formed so that the outer circumferential surface 191 is in close contact with the inner surface of the gum portion 2,
A plurality of fine grooves 112a are further formed on each surface of the curved grooves 112 so that the gum part 2 is softened and expanded and closely adhered to the fine grooves 112a, but the curved grooves 112 ) Of the plurality of microgrooves 112a formed on the surface, a horizontal through hole 112c penetrating the middle body 111 in the horizontal direction is formed on the lower side of the microgroove 112a formed at the bottom to soften the gum. The part 2 is expanded and inserted into close contact, and a vertical through hole 112d penetrating in the vertical direction is further formed on the protruding edge side of the lower hanging part 119 so that the softened gum part 2 is expanded and inserted into close contact. Healing abutment for implant digital lab analog, characterized in that it is configured to secure mutual fixation by doing. delete delete delete delete delete delete

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