KR101419519B1 - Implant assembly - Google Patents

Abstract

The present invention relates to an implant assembly which can form an emergency profile similar to the state of an emergency natural tooth. The assembly of the present invention comprises a fixture (10) combined with an alveolar bone and including an installation hole (14) with the upper side opened; an abutment (20) combined with the fixture through the installation hole; and a healing cap (50) combined with the abutment to form an emergency profile on the gum. The healing cap (50) is composed of a lower end part with circular exterior; an upper end part bigger than the lower end part and having a rectangular exterior; and a connection part connecting the lower end part and the upper end part, and is made of a synthetic resin material. The healing cap comprises an eccentric extension part extended toward at least one side over the lower end part to the upper end part.

Description

Implant assembly < RTI ID = 0.0 >

The present invention relates to a dental implant, and more particularly, to an implant assembly capable of forming an immersion profile closest to a shape of a natural tooth and effectively coping with an error of a fixture fixed to the alveolar bone.

First, the structure of the dental implant in the oral cavity will be described with reference to FIG. As shown, the dental implant comprises a fixture 2 fixed to the alveolar bone, a crown 4 having a shape corresponding to the teeth, and a crown 4 connected to the fixture 2 and the crown 4 And an abutment 6 for supporting it.

The fixture 2 corresponds to the root of a normal tooth and is formed of metal, and is fixed to the alveolar bone using a screw formed on the outer surface thereof. The crown 4 corresponds to the crown of a tooth and can be said to perform a substantial function as a tooth while the upper part is supported in a state exposed on the gingiva. The crown 4 is connected to the fixture 2 via an abutment 6 and is held in a fixed state.

A hexagonal groove is formed in the lower side of the fixture 2, and a hexagonal projection is formed in the lower end of the abutment 6 to be inserted into the hexagonal groove. The hexagonal grooves and the hexagonal protrusions engaging with each other at the inner lower end of the picture chute and the lower end of the abutment 6 are formed because the abutment 6 coupled to the fixture 2 is not rotated by any external force So that it can be supported. Instead of the hexagonal shape as described above, it may be formed as a polygon that can prevent rotation when coupled to each other. For example, an octagonal shape or the like may be used.

The abutment 6 is fixed to the fixture 2 by the fixing screw not shown in the state in which the hexagonal projection formed on the lower end of the abutment 5 is inserted into the hexagonal groove formed in the fixture 2, do. The crown 4 is fixed to the abutment 6 using an adhesive. Hereinafter, a process of implanting the implant having the above structure will be briefly described.

First, the fixture 2 is fixed to the alveolar bone, that is, fixed, and then the healing abutment is fastened to the fixture 2 for healing the gingiva when the bone attachment of the fixture is completed. Here, the healing abutment functions to form an appropriate emergency profile so that the gingiva can be cured to a certain shape for a crown or the like to be joined in a later process.

After a certain immersion profile is formed by healing the gingiva using the above-described healing abutment, a prosthesis manufacturing process is performed to remove the healing abutment and to form the crown 4 fixed to the fixture 2 . Such a prosthetic manufacturing process can be roughly classified into two methods. One is a method of making a crown by manually drawing an impression coping, a method of acquiring a three-dimensional image with a mouth scanner using a scan adapter, And the method of making the crown by using.

In the case of direct molding using impression coping, an impression coping is fastened to the upper portion of the fixture 2, and a jelly-like impression agent is applied thereon. By the solidification of the impression agent, the shape of the spherical inner surface and the impression coping shape are reproduced on the impression material, and the prosthesis is manufactured using the impression material. However, this method has disadvantages in that the coping of the impression is inconvenient to the patient due to the use of the handling and the impression agent.

Therefore, in order to solve such inconvenience, recently, it is a tendency to develop a method of acquiring a three-dimensional shape using a digital oral scanner and manufacturing a prosthesis based thereon. These trends are gradually expanding in response to the patient's convenience and the demands of the times. In order to acquire a three-dimensional image of the inside of the oral cavity using the digital oral scanner, the scan adapter is fixed to the fixture 2 instead of the impression coping used in the above-described conventional method, and then the scan is performed. Then, based on the three-dimensional image obtained by scanning, abutments and crown are plotted.

However, according to such a conventional implant treatment method, the following disadvantages can be pointed out.

Conventional healing abutments used for gingival healing have a circular cross-section, but since the shape of the teeth substantially varies according to their position, it is somewhat different from the shape corresponding to each tooth It can be said that it is different. That is, the conventional healing abutment is substantially different from the shape of natural teeth.

Therefore, in the procedure, the artificial tooth must be pushed into the small healed gingiva, so that the patient may suffer some pain or deformation of the gingiva may occur in severe cases. And this is far from the recent trend toward patient-oriented treatment.

In view of this, a patient-customized healing abutment having the shape closest to the natural teeth has been proposed. However, in order to perform healing of the gingiva using such a customized healing abutment, the direction of the healing abutment must be taken into consideration from the time of the fixture operation. However, not only does it have to spend a lot of time in order to achieve this exact direction, but even if it takes a lot of time, there is a certain amount of error because it takes considerable difficulty to perform in a precise direction.

In addition, when fixing the fixture to the alveolar bone, it should be fixed at the correct position, but the environment inside the oral cavity may be different according to the patient, and it is practically difficult to fix it in the correct position during the procedure. . In a state where the fixture is fixed at a position having such a certain error, when the gum is healed using the conventional healing abutment as described above, an immersion profile different from that of a natural tooth is formed, The same problem can not be avoided.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an implant assembly capable of forming an immersion profile capable of forming an immersion profile closest to a natural tooth.

Another object of the present invention is to provide an implant assembly that can be applied most effectively to a patient-customized treatment as much as possible to alleviate the burden and suffering on the procedure.

 It is a further object of the present invention to provide an implant assembly best suited to the design of the final crown and abutment after the fixture is fixed.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided an implant assembly comprising: a fixture having a mounting hole coupled to an alveolar bone and having an opened upper surface; an abutment coupled with the fixture through the mounting hole; And a healing cap coupled to the abutment to form the abutment. Here, the healing cap includes a lower end having a circular outer shape, an upper end having a rectangular outer shape larger than the lower end, and a connecting portion connecting the lower end and the upper end, and is formed of a synthetic resin material.

According to another embodiment of the present invention, the healing cap further comprises an eccentric extension portion extending at least one side from the lower end portion to the upper end portion. These eccentric extensions absorb the deviation of the fixture and contribute to the formation of an accurate immersion profile.

According to another embodiment of the present invention, a hexagonal end portion is formed at the lower end of the abutment, and a hexagonal groove portion to which the hexagonal end portion is coupled is formed in the mounting hole of the fixture. The abutment and the fixture are abutment And is fixed by a fixing screw which passes through the through hole of the screw. According to yet another embodiment, the abutment may be fastened and fixed directly to the fixture.

According to the present invention, the immersion profile is formed by a healing cap, which can be injection molded with a synthetic resin material to form an immersion profile closest to the natural tooth condition. And, the healing cap is injection-molded by a synthetic resin material. In this injection molding, it is possible to have a shape that can form an immersion profile of the most preferable form, and it is also possible to form a shape that can cope with various tooth environments.

In addition, according to the present invention, the healing cap can be vertically adjusted so as to adapt to the gum state of the patient in a state of being coupled to the abutment. In addition, the healing cap can be rotated and positioned in order to form a more accurate immersion profile in consideration of the gingival state of the patient while being coupled to the abutment. It is expected that a customized procedure capable of fully coping with the patient's situation can be expected by the movement and rotation in the vertical direction.

Further, according to the present invention, since the healing cap has the eccentric extension portion, even when the fixture is not fixed at the correct position of the alveolar bone, the most preferable immersion profile can be obtained in relation to the surrounding teeth .

1 is an exemplary sectional view showing a structure of a general implant.
FIG. 2 is an exemplary perspective view showing the state of the implant assembly of the present invention. FIG.
3 is an exemplary perspective view showing the state of the implant assembly of the present invention.
4 is a cross-sectional exemplary view of an implant assembly of the present invention.
Figure 5 is an exemplary perspective view of a healing cap of the present invention.
Figure 6 is an exemplary perspective view of another healing cap of the present invention.

Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings.

FIGS. 2 and 3 show an exploded perspective view of the implant assembly of the present invention, and FIG. 4 exemplarily shows a cross-section of the jointed state. 2 and 3, the implant assembly of the present invention includes a fixture 10 fixed to an alveolar bone, an abutment 20 coupled to the fixture 10, and an abutment 20 (Not shown).

The fixture 10 is screwed and fixed to the alveolar bone, and the outer periphery thereof is formed with a threaded portion 12 for screwing the alveolar bone into the alveolar bone. In order to engage the abutment 20, the fixture 10 is formed with a mounting hole 14 whose upper surface is opened up to a predetermined depth. A hexagonal groove portion 16 is formed at a middle portion of the mounting hole 14 so as to have a constant height and an internal thread portion 18 is formed at an inner peripheral edge of the mounting hole 14 below the hexagonal groove portion 16 . The lower portion of the mounting hole 14 in which the internal thread portion 18 is formed has a diameter smaller than that of the hexagonal groove portion 16.

The lower portion of the abutment 20 is inserted into the mounting hole 14 of the fixture 10 and is engaged. At the lower end of the abutment 20, a hexagonal end portion 22 having a hexagonal shape to be engaged with the hexagonal groove portion 16 of the fixture 10 is formed. The hexagonal end portion 22 of the abutment 20 is engaged with the hexagonal groove portion 16 of the fixture 10 so that the abutment 20 coupled to the fixture 10 is not rotated by the external force Can be firmly supported.

The upper end of the abutment 20 is formed by a body 26 whose diameter is wider than the hexagonal end 22 and between the hexagonal end 22 and the body 26 by an inclined connection 24 . The connecting portion 24 maintains contact with the inclined portion 19 formed on the upper portion of the mounting hole 14 in a state where the hexagonal end portion 22 is engaged with the hexagonal groove portion 16. A through hole 28 is formed in the center of the abutment 20 so as to allow the fixture 20 and the fixture 10 to be fixed by a fixing screw to be described later.

Then, in a state where the abutment 20 is coupled to the fixture 10, they are firmly fastened by the fastening screw 30. That is, the lower threaded portion 32 is screwed into the internal threaded portion 18 of the fixture 10, with the fixed screw 30 passing through the through hole 28 of the abutment 20. At this time, the head 34 of the fixing screw 30 is caught by the engaging portion 29 on the upper portion of the through hole 28, so that the abutment 20 is completely fixed to the fixture 10 At this time, the connecting portion 24 of the abutment 20 is kept in contact with the inclined portion 19 formed on the upper portion of the mounting hole 14

Although the abutment 20 is fixed to the fixture 10 via the separate fixing screw 30 in the above-described embodiment, the abutment may be fixed to the fixture 10 by a screw- It is also possible to apply a butt, and the healing cap 50 of the present invention described below can also be applied to such a solid abutment as well.

Hereinafter, the healing cap 50 of the present invention will be described in more detail. The healing cap 50 of the present invention is intended to form an immersion profile of the gum and, if possible, to enable patient-customized services by forming an immersion profile similar to a natural tooth condition. This healing cap 50, as shown in Figures 2 and 3, is held in place by being fitted to the abutment 20, thereby forming a more desirable immersion profile on the gum during the healing process of the gingiva .

As shown in FIG. 2, the healing cap 50 of the present invention is inserted into the abutment 20 so as to form an immersion profile closest to the shape of a natural tooth gum. 3 and can rotate about the abutment 20 as shown in Fig. 3, so that the up-and-down direction can adjust the position and the rotation position as required .

As shown in Fig. 5, the healing cap 50 of the present invention is provided with a mounting hole 52 passing through the top and bottom thereof and is formed of a material capable of elastic deformation within a predetermined range. For example, . ≪ / RTI > The healing cap 50 is fitted to the abutment 20 described above through the mounting hole 52. Most preferably, the size of the mounting hole 52 is such that the healing cap 50 does not rotate arbitrarily in the state where the healing cap 50 is fitted in the abutment 20, or does not move in the vertical direction.

As described above, the healing cap 50 of the present invention is manufactured by injection molding using a synthetic resin material. Accordingly, various shapes of healing caps 50, which can cope with the spherical state including the patient's tooth arrangement, can be made by injection molding, and the practitioner can select the most suitable one for the patient's tooth environment, ). ≪ / RTI >

The inner diameter of the mounting hole 52 of the healing cap 50 having a circular cross section is slightly smaller than the outer diameter of the abutment 20 so that the healing cap 50 is attached to the abutment 20 It is preferable that an elastic force is applied when inserted and an elastic restoring force is applied in a mounted state so as not to move even by a small external force. The lower end portion 54 of the healing cap 50 has a circular outer shape and the upper end portion 56 has a rectangular outer shape.

The connecting portion 55 between the lower end portion 54 and the upper end portion 56 of the healing cap 50 may be concave or convexly connected and may be concave or convex, And selection of such a shape may be made by an expert according to the arrangement and shape of the gums and teeth. Since the upper end portion 56 is actually larger than the lower end portion 54, the cross-sectional area of the connection portion 55 also becomes larger toward the upper side substantially.

In this specification, the upper end 56 of the healing cap 50 has a quadrangular outer shape, which means that the overall shape of the upper end 56 has a shape similar to a quadrangle. That is, the quadrangular outer shape of the upper end portion 56 does not need to be formed into a straight line but is formed in a curve to some degree, or at least a part has a straight line shape, and the connection with the adjacent side is rounded define. Therefore, instead of having four sides constituted by straight lines, the adjacent sides are connected to the curved surface so that at least a part of each side has a straight line, and the four side edges have curved lines and form a certain angle with the adjacent sides It shall be used and defined in the sense that it includes the treatment of curved surfaces.

According to the present invention, since the lower end portion of the healing cap 50 has a circular outer shape, it is advantageous to form an immersion profile at a portion corresponding to the root and the upper end has a rectangular shape extending outward, It is possible to form a profile. 5 (a) shows a healing cap which can be easily applied to a person with a high gum height, and FIG. 5 (b) Illustrates a healing cap which can be easily applied to a person with a low gum height, which is also the same in Fig.

Hereinafter, a healing cap of another embodiment shown in FIG. 6 will be described. As shown in the figure, the healing cap 50 of the present embodiment has a mounting hole 52 having a circular section, a lower end portion 54 having a circular outer shape, and an upper end portion 56 having a rectangular shape It can be seen that, in addition to the condition having the outer shape, the one-sided deep abrasive section 58 is provided.

The eccentric sheath 58 is formed to be able to form an immersion profile that is most similar to a human natural tooth, and can be said to relate to the position of the fixture 10. That is, when the fixture 10 as described above is mounted on the alveolar bone, it is most preferable that the fixture 10 is fixed to the alveolar bone corresponding to the right center with respect to the teeth on both sides. However, in the case of the actual operation, the fixture 10 is often fixed to the eccentric position rather than being fixed at the center of both teeth of the tooth to be implanted.

In the case where the fixture 10 is fixed at the eccentric position in this way, the immersion profile formed by the abutment is also very likely to be molded in a state eccentric to one side. In this case, the final crown and abutment Patients are followed by pain. 6, if the healing cap 50 having the eccentrically located deep abrasive part 58 is attached to the abutment 20 as shown in Fig. 6, the immersion profile can be obtained even when the eccentrically- So that it can be formed at the precise position to be mounted.

6 shows a healing cap 50 having a one-sided deep-seam ledge 58, but it also provides a healing cap 50 with a deep seam 58 extending in another direction You can see that it is quite possible to do that. As shown in Figs. 2 and 3, in the state where the healing cap 50 of the present invention having the above-described structure is inserted into the abutment 20, It is also possible to adjust the position by rotating around the center.

Therefore, when the doctor fixes the fixture 10 to the alveolar bone, fixes the abutment to the fixture 10, and then joins the healing cap 50 of the present invention to the abutment, depending on the thickness of the patient's gums, It is possible to precisely adjust the vertical position of the cap 50 as well as taking into account the shape of the patient's gums, the relationship with surrounding teeth, and the position of the fixture 10 fixed to the alveolar bone, It is possible to adjust it so that

After the desired immersion profile is formed on the gingiva using the implant assembly according to the present invention, the crown and the abutment to be actually used are designed and finally inserted into the oral cavity. The implant assembly according to the present invention can be applied to a case where a crown is made by manually drawing an impression coping and a crown is formed by using a scanner to obtain a three- Can be used.

In particular, in the case of scanning using the oral scanner, the abutment 20 according to the present invention can replace the function of the scan adapter substantially. Therefore, without removing or removing the above-described healing cap 50 Oral internal scan may be performed. At this time, if the markers capable of indicating the direction are formed on the upper surface of the abutment or the upper surface of the fixing screw, it is obvious that the directionality of the hexagonal groove portion in the fixture can be grasped more easily.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the present invention as defined by the appended claims. It is clear that the scope of protection of the present invention should be interpreted based on the scope of the appended claims.

10 ..... fixtures
12 ..... thread
14 ..... mounting ball
16 ..... hexagonal groove
18 ..... internal threads
19 ..... slope part
20 ..... abutment
22 ..... hexagonal end
24 ..... connection
26 ..... body
28 ..... through hole
29 ..... engaging portion
30 ..... Fixing Screw
32 ..... thread
34 ..... head
50 ..... Healing cap
52 ...... mounting ball
54 ..... lower part
56 ..... upper part
58 ..... The abyss

Claims (6)

A fixture 10 coupled to the alveolar bone and having a mounting hole 14 having an open top,
An abutment 20 coupled to the fixture through the mounting hole, and
And a healing cap (50) having a mounting hole (52) for engaging the abutment to form an immersion profile on the gingiva;
The healing cap 50 includes a lower end having a circular outer shape, an upper end having a rectangular outer shape larger than the lower end, and a connecting portion connecting the lower end and the upper end, and is formed of a synthetic resin material;
Wherein the healing cap is movable in a vertical direction in a state where the healing cap is coupled to the abutment.
[2] The implant assembly of claim 1, wherein the healing cap further comprises an eccentric extension extending at least one side from a lower end to an upper end.
The hexagonal end portion of the abutment is formed in a mounting hole of the fixture, and a hexagonal groove portion to which the hexagonal end portion is coupled is formed in the mounting hole of the abutment, The implant assembly is secured by a securing screw that passes through the through hole of the implant.
3. The implant assembly of claim 1 or 2, wherein the abutment is fastened and secured directly to the fixture.
delete 3. The implant assembly according to claim 1 or 2, wherein the healing cap is rotatable in the left-right direction while being coupled to the abutment.

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