KR102342644B1 - Screw for Implant - Google Patents

Abstract

A screw for an implant is provided. The implant screw includes: a head part having a set volume but integrally fastening the fixture and the abutment; a body portion provided under the head portion, having a smaller diameter than the head portion, and screwed to the fixture; and a seating surface part provided between the head part and the body part to connect the head part and the body part, and made of a curved surface having at least one curvature.

Description

Screw for Implant

The present invention relates to an implant screw, and more particularly, to an implant screw capable of obtaining greater axial force at a limited torque when a fixture and an abutment are integrally fastened.

Bolts are used to join structures or parts together. These bolts are fastened with a target axial force using various fastening methods. In general, the recommended clamping axial force is 60 to 70% of the yield axial force regardless of the clamping method. If it does not have sufficient axial force, it loses its function as a fastening member, so axial force is the most important design factor in bolt design.

However, even when tightened with the recommended tightening axial force, loss of axial force (self-loosening) occurs depending on the external environment. When the loosening phenomenon occurs, the bolt does not play a role, and accordingly, an accident in which the structure is damaged or collapsed occurs.

On the other hand, the average lifespan of implant-treated artificial teeth is 10 years, and during this period, the screw connecting the abutment and the fixture must be loosened or fatigue damage must be prevented. To this end, companies that manufacture artificial teeth for various implants are making efforts to reduce the stress applied to the screw. For example, in the prior art, in order to increase the life of the screw, the seat surface of the screw was made in an oblique shape to reduce the stress applied to the neck of the screw. However, if the seat surface of the screw is made oblique, the initial axial force is reduced by about 15% when the same torque is applied. Even if the seat surface of the screw is horizontal, the initial axial force is about 45% of the yield axial force, so it does not have sufficient initial axial force. none. If the seat surface of the screw is provided with an oblique line, the problem of eccentricity that occurs when the seat surface of the screw is on a horizontal surface can be solved, but a sufficient fastening force cannot be secured due to a low initial axial force. However, in order to increase the initial axial force, when tightened with a higher torque, a pressure higher than the set pressure from the fixture is applied to the gums, causing damage to the gums.

In general, when the initial axial force is large and the friction coefficient between the screw thread and the seating surface is large, the loosening phenomenon is suppressed.

For example, in order to prevent loosening, an anti-loosening washer is used, a plastic region fastening in which a higher torque of 80 to 90% is used, or a surface treatment method to increase the friction coefficient is used.

However, since the implant screw is very small and has a narrow seating surface, it is difficult to use an anti-loosening washer. In addition, since the plastic region fastening performed with a higher torque may give stress to the gums, it is difficult to apply it to the fastening of the implant screw. And, if the friction coefficient is increased through surface treatment, higher torque is required for fastening, so it can put a strain on the gums just like the plastic region fastening. Inappropriate.

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Japanese Patent Application Laid-Open No. 2017-096486 (2017.06.01.)

One technical problem to be solved by the present invention is to provide a screw for an implant that can obtain a greater axial force from a limited torque when the fixture and the abutment are integrally fastened.

In addition, another technical problem to be solved by the present invention is to provide a screw for implants that can prevent damage to the gums.

The technical problem to be solved by the present invention is not limited to the above.

In order to solve the above technical problem, the present invention provides a screw for implant.

According to one embodiment, the screw for implant, but integrally fastening the fixture and the abutment, the head portion having a set volume; a body portion provided under the head portion, having a smaller diameter than the head portion, and screwed to the fixture; and a seating surface part provided between the head part and the body part to connect the head part and the body part, and made of a curved surface having at least one curvature.

According to an embodiment, the seating surface portion, the first curved surface extending upward from one end of the body portion in the longitudinal direction, extending outward in the radial direction, increasing in diameter toward the upper side, and having a first curvature in the height direction; and a second curved surface extending upward from the upper end of the first curved surface and extending radially outwardly to be connected to the head portion, the diameter of which increases toward the upper side, and the second curved surface having a second curvature in the height direction.

According to an embodiment, the seating surface portion is in contact with the inner peripheral surface of the abutment, the first curved surface in contact with one side of the inner peripheral surface of the abutment is a radius than the second curved surface in contact with the other side of the inner peripheral surface of the abutment It can have a large contact area in the direction.

According to an embodiment, the first curvature is smaller than the second curvature, and the center of the circle forming the first curved surface is located radially outward and higher in the height direction than the center of the circle forming the second curved surface. can do.

According to an embodiment, the seating surface part further includes a third curved surface provided between the first curved surface and the second curved surface, the diameter of which increases upward, and the third curved surface having a third curvature in the height direction, wherein the third curved surface is provided. The curvature may be greater than the first curvature and smaller than the second curvature.

According to one embodiment, the body portion, the first body is provided on the seat surface side, the first body in contact with the inner peripheral surface of the abutment; and a second body extending downward from the longitudinal end of the first body, inserted into the inner circumferential surface of the fixture, and having a thread formed on the longitudinal outer circumferential surface.

According to an embodiment of the present invention, but integrally fastening the fixture and the abutment, the head portion having a set volume; a body portion provided under the head portion, having a smaller diameter than the head portion, and screwed to the fixture; and a seating surface part provided between the head part and the body part to connect the head part and the body part, and made of a curved surface having at least one curvature.

Accordingly, when the fixture and the abutment are integrally fastened, a greater axial force can be obtained at a limited torque, and through this, an implant screw capable of preventing loosening can be provided.

In addition, according to an embodiment of the present invention, by being fastened to the fixture and the abutment with a limited torque in a range in which the gum is not damaged, damage to the fixture or the abutment can be prevented, and through this, the lifespan of the implant tooth can be reduced. An extendable screw for an implant may be provided.

1 is a cross-sectional view showing a state in which an implant screw according to an embodiment of the present invention is fastened to a fixture and an abutment.
2 is a front view showing an implant screw according to an embodiment of the present invention.
Figure 3 is a partial cross-sectional schematic view showing the seat surface of the implant screw according to an embodiment of the present invention.
4 is a graph showing the change in axial force versus torque according to the shape of the seat surface.
5 is a front view showing an implant screw according to another embodiment of the present invention.
6 is a partial cross-sectional schematic view showing a seating surface of an implant screw according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the technical spirit of the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the spirit of the present invention may be sufficiently conveyed to those skilled in the art.

In this specification, when a component is referred to as being on another component, it means that it may be directly formed on the other component or a third component may be interposed therebetween. In addition, in the drawings, the shape and size are exaggerated for effective description of technical content.

In addition, in various embodiments of the present specification, terms such as first, second, third, etc. are used to describe various components, but these components should not be limited by these terms. These terms are only used to distinguish one component from another. Accordingly, what is referred to as a first component in one embodiment may be referred to as a second component in another embodiment. Each embodiment described and illustrated herein also includes a complementary embodiment thereof. In addition, in this specification, 'and/or' is used in the sense of including at least one of the components listed before and after.

In the specification, the singular expression includes the plural expression unless the context clearly dictates otherwise. In addition, terms such as “comprise” or “have” are intended to designate that a feature, number, step, component, or a combination thereof described in the specification is present, and one or more other features, numbers, steps, or configurations It should not be construed as excluding the possibility of the presence or addition of elements or combinations thereof. In addition, in this specification, "connection" is used in a sense including both indirectly connecting a plurality of components and directly connecting a plurality of components.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 to 4 are views for explaining an implant screw according to an embodiment of the present invention.

As shown in FIG. 1 , the implant screw 100 according to an embodiment of the present invention is a fastening member for integrally coupling a fixture 10 and an abutment 20 .

Here, the fixture 10 is fixed by being inserted into the alveolar bone. At this time, the fixture 10 is inserted and fixed to the alveolar bone in a screw method. To this end, a threaded portion 12 is formed on the outer peripheral surface in the longitudinal direction of the fixture 10 . In addition, an insertion groove 11 into which the implant screw 100 for fastening with the abutment 20 is inserted is formed at the upper end of the fixture 10 in the longitudinal direction in the depth direction, and on the wall surface of the insertion groove 11 A thread is formed for screw coupling with the screw 100 for implant.

The abutment 20 is a member for supporting a prosthesis (crown) (not shown) having a tooth shape. This prosthesis is attached to the upper end of the abutment 20 in the longitudinal direction. The lower end in the longitudinal direction of the abutment 20 is fastened to the upper end in the longitudinal direction of the fixture 10 , and the fastening between the fixture 10 and the abutment 20 is made through the implant screw 100 .

To this end, a hollow 21 is formed on the inside of the abutment 20 along the longitudinal direction. The hollow 21 communicates with the insertion groove 11 of the fixture 10 when the abutment 20 is aligned on the fixture 10 for mutual fastening. The implant screw 100 is inserted and penetrated into the hollow 21 so that the lower side thereof reaches the insertion groove 11 of the fixture 10 . That is, the hollow 21 serves to guide the movement path of the implant screw 100 to be inserted toward the insertion groove 11 of the fixture 10, and is inserted into the insertion groove 11 of the fixture 10 in the longitudinal direction. It serves to support the upper end in the longitudinal direction of the implant screw 100 into which the lower end is inserted.

On the other hand, a step 22 is provided at the lower end of the hollow 21 . The step 22 may be provided in the circumferential direction of the lower end wall of the hollow 21 . The step 22 protrudes toward the center from the lower side wall of the hollow. As such, by the stepped 22 protruding toward the center, a through hole 23 penetrating the lower side in the longitudinal direction of the implant screw 100 is provided in the center of the stepped 22 .

The through hole 23 may have a diameter corresponding to the outer diameter thereof so that the lower side in the longitudinal direction of the implant screw 100 may pass. In addition, the through hole 23 may have a diameter smaller than the outer diameter thereof so that the passage of the upper side in the longitudinal direction of the implant screw 100 is blocked. Accordingly, the fixture 10 and the abutment 20 are aligned in the vertical direction, in a state in which the upper surface of the fixture 10 is in close contact with the lower surface of the step 22, the hollow of the abutment 20 When the implant screw 100 is inserted through the 21 and the through hole 23, the lower side in the longitudinal direction of the implant screw 100 is inserted into the insertion groove 11 of the fixture 10, for implantation. The seat surface of the screw 100 descends toward the upper surface of the stepped 22 by the depth at which the lower side in the longitudinal direction of the implant screw 100 is inserted into the insertion groove 11 of the fixture 10 . Finally, when the seating surface of the implant screw 100 is pressed against the upper surface of the step 22 , the fastening of the fixture 10 and the abutment 20 by the implant screw 100 is completed.

Referring to FIGS. 1 and 2 , as described above, the implant screw 100 according to an embodiment of the present invention used for fastening the fixture 10 and the abutment 20 is the head part 110 . , it may be formed to include a body portion 120 and a seat surface portion 130 .

The head portion 110 has a set volume. The head part 110 may be provided in a cylindrical shape. The head part 110 is connected to the body part 120 via the seating surface part 130 provided on the lower side thereof. In this case, in an embodiment of the present invention, the head part 110 , the body part 120 , and the seat surface part 130 may be provided integrally.

The upper side of the head part 110 in the longitudinal direction may be provided in a form in which a diameter is gradually reduced. In this case, a mounting groove (not shown) for mounting a fastening means for rotating the implant screw 100 may be provided at the upper end of the head unit 110 . The mounting groove may be formed inwardly in the depth direction from the upper end of the head unit 110 . For example, the mounting groove may be provided as a groove having a hexagonal cross-section so that a tip of a hexagonal wrench provided as a fastening means can be inserted and fixed. However, this is only an example, and the tip of the head part 110 may have a structure suitable for the fastening means used.

The head part 110 has a relatively larger diameter than the body part 120 . Accordingly, when the fastening between the fixture 10 and the abutment 20 is completed, the head part 110 does not pass through the through hole 23 having a diameter corresponding to the body part 120 and the step 22 . will be located on The head part 110 is positioned in a form to press the step 22, and the body part 120 integrally formed with the head part 110 is inserted and fixed in the insertion hole 11 of the fixture 10, The fixture 10 and the abutment 20 maintain a firm fastening force.

1 and 2 , the body part 120 is provided below the head part 110 . The body part 120 may be provided in a cylindrical shape having a smaller diameter than that of the head part 120 . The body part 120 is connected to the head part 110 through the seat surface part 130 integrally provided at the front end in the longitudinal direction. This body portion 120 is screwed into the insertion groove 11 of the fixture 10, fixed to the fixture 10, and through this, the abutment 20 connected to the upper end in the longitudinal direction of the fixture 10 is fastened to the fixture 10 .

The body part 120 according to an embodiment of the present invention may be formed to include a first body 121 and a second body 122 .

In an embodiment of the present invention, the first body 121 is set as the upper end portion of the body portion 120 in the longitudinal direction in contact with the seat surface portion 130 . The first body 121 may be provided in a cylindrical shape. The first body 121 may be provided to extend downwardly from the lower end of the seating surface part 130 .

When the fixture 10 aligned in the vertical direction and the abutment 20 are fastened, the first body 121 comes into contact with the inner circumferential surface of the abutment 20 . Specifically, when the fixture 10 and the abutment 20 are fastened, the first body 121 comes into contact with the wall surface of the through hole 23 formed in the abutment 20 . In this case, the lower end in the longitudinal direction of the first body 121 may be inserted up to the upper end of the insertion hole 11 formed in the fixture 10 .

In one embodiment of the present invention, the second body 122 is set as the remaining parts except for the upper part in the longitudinal direction of the body part 120 set as the first body 121 . The second body 122 may be provided in a cylindrical shape having the same diameter as that of the first body 121 . The second body 122 may be provided to extend downwardly from the lower end in the longitudinal direction of the first body 121 .

When the fixture 10 and the abutment 20 aligned in the vertical direction are fastened, the second body 122 is formed on the inner circumferential surface of the fixture 10, more specifically, on the inside in the longitudinal direction of the fixture 10 It is inserted into the insertion groove (11). In this case, the second body 122 may be screw-coupled to the fixture 10 in order to solidify the fastening force with the fixture 10 . To this end, a screw thread 122a that can be screwed with a screw thread formed on the wall surface of the insertion groove 11 of the fixture 10 may be formed on the outer circumferential surface in the longitudinal direction of the second body 122 . That is, in one embodiment of the present invention, the body portion 120 is divided into a first body 121 and a second body 122 depending on whether the screw thread 122a is formed on the outer circumferential surface.

1 and 2 , the seating surface part 130 is provided between the head part 110 and the body part 120 . Through this, the seating surface part 130 connects the head part 110 and the body part 120 . The seat portion 130 may be provided integrally with the head portion 110 and the body portion 120 .

When the fixture 10 aligned in the vertical direction and the abutment 20 are fastened, the seat surface 130 comes into contact with the inner circumferential surface of the abutment 20 . In more detail, the seating surface portion 130 is in contact with the lower portion wall of the stepped 22 and the stepped 22 and the hollow 21 connected to the hollow 21 formed in the lower portion of the abutment 20 . .

1 to 3 , the seating surface part 130 may be formed of a curved surface having at least one curvature. The seating surface part 130 according to an embodiment of the present invention may be formed to include a first curved surface 131 and a second curved surface 132 .

The first curved surface 131 is provided at an upper end of the body part 120 in the longitudinal direction. The first curved surface 131 is provided to extend upwardly from the upper end of the body part 120 in the longitudinal direction. In this case, the first curved surface 131 may be provided in a shape extending outward in the radial direction when the longitudinal direction of the body part 120 is viewed in the axial direction. The first curved surface 131 may have a larger diameter than the body portion 120 . In this case, the first curved surface 131 may be formed in a shape in which the diameter increases toward the upper side.

Referring to FIG. 3 , the first curved surface 131 according to an embodiment of the present invention may have a first curvature R1 in the axial direction, that is, in the height direction.

Here, when the fixture 10 and the abutment 20 are fastened, one side of the inner peripheral surface of the abutment 20 , more specifically, one side of the stepped 22 provided in the hollow 21 of the abutment 20 . The contacting first curved surface 131 may have a larger contact area in a radial direction than the second curved surface 132 in contact with the other side of the stepped 22 provided in the hollow 21 of the abutment 20 . As such, if the contact area of the first curved surface 131 in contact with the step 22 forming the horizontal plane is large, it is possible to obtain a larger initial axial force.

The second curved surface 132 is provided at an upper end of the first curved surface 131 . The second curved surface 132 is provided to extend upwardly from the upper end of the first curved surface 131 . In this case, the second curved surface 132 may be provided in a shape extending outward in the radial direction. Accordingly, the upper end of the second curved surface 132 may be connected to the lower end of the head unit 110 in a shape having the same diameter as that of the head unit 110 . To this end, the second curved surface 132 may be formed in a shape in which the diameter increases toward the upper side. The second curved surface 132 may be formed of a curved surface having a curvature different from that of the first curved surface 131 .

Referring to FIG. 3 , the second curved surface 132 according to an exemplary embodiment may have a second curvature R2 in the height direction.

In an embodiment of the present invention, the first curvature R1 forming the first curved surface 131 may be set to be smaller than the second curvature R2 forming the second curved surface 132 . At this time, the center (A) of the circle in which one part forms the first curved surface 131 is located radially outward than the center (B) of the circle in which the part forms the second curved surface 132 , and at the same time, upward in the height direction. will be located in

4 is a graph showing the change in axial force versus torque according to the shape of the seat surface. Referring to FIG. 4 , when the tightening torque is 300 Nmm, it was confirmed that the axial force was the weakest when the outer circumferential surface of the cross-section of the seating surface was conical (green line). In addition, it was confirmed that, when the shape of the seating surface part is made of a curved surface, a larger or stronger axial force is obtained as the curvature is smaller. That is, it was confirmed that the largest axial force was obtained when the curvature of the seat surface was 0.2 (Round 0.2) (yellow green line).

In addition, it was confirmed that, when the seat surface portion is formed of a curved surface having two curvatures, a relatively large axial force is obtained at the same tightening torque than when the seat surface portion is formed of a curved surface having one curvature.

As described above, the seat surface 130 according to an embodiment of the present invention is formed of a curved surface having two curvatures. That is, as shown in FIG. 3 , the seating surface part 130 includes a combination of a first curved surface 131 having a first curvature R1 and a second curved surface 132 having a second curvature R2 . Accordingly, when the fixture 10 and the abutment 20 are integrally fastened, the implant screw 100 according to an embodiment of the present invention is larger than the limited torque through the seating surface portion 130 . An axial force can be obtained, thereby preventing loosening. And as the screw 100 for implant according to an embodiment of the present invention is provided with such a seating surface portion 130 to obtain a larger axial force at a limited torque, the fixture with a limited tightening torque in a range that does not damage the gums (10) and the abutment (20) can be fastened to prevent damage to the fixture (10) or the abutment (20), and through this, to prolong the life of the implant-treated artificial tooth do.

Hereinafter, an implant screw according to another embodiment of the present invention will be described with reference to FIGS. 5 and 6 .

5 is a front view showing an implant screw according to another embodiment of the present invention, and FIG. 6 is a partial cross-sectional schematic view showing a seating surface of the implant screw according to another embodiment of the present invention.

5 and 6 , the implant screw 100 according to another embodiment of the present invention may be formed to include a head 110 , a body 120 , and a seating surface 130 . .

In another embodiment of the present invention, as compared with an embodiment of the present invention, there is only a difference in that the seating surface portion further includes a third curved surface, so the same reference numerals are given to the same components and these components are assigned the same reference numerals. A detailed description thereof will be omitted.

The seat surface 130 according to another embodiment of the present invention may be formed to further include a third curved surface 133 .

The third curved surface 133 is provided between the first curved surface 131 and the second curved surface 132 . The third curved surface 133 may be formed in a shape in which the diameter increases toward the upper side. The third curved surface 133 may be formed of a curved surface having a curvature different from that of the first curved surface 131 and the second curved surface 132 . In another embodiment of the present invention, the third curved surface 133 may have a third curvature R3 in the height direction.

In another embodiment of the present invention, the third curvature R3 forming the third curved surface 133 may be set to be greater than the first curvature R1 forming the first curved surface 131 . Also, the third curvature R3 forming the third curved surface 133 may be set to be smaller than the second curvature R2 forming the second curved surface 132 .

As such, the implant screw 100 according to another embodiment of the present invention is formed of a curved surface having a plurality of curvatures. Accordingly, when the fixture 10 and the abutment 20 are integrally fastened, the implant screw 100 according to another embodiment of the present invention is larger than that in the limited torque through this seating surface portion 130 . An axial force can be obtained, thereby preventing loosening.

In another embodiment of the present invention, a curved surface having three curvatures has been exemplified, but this is only an example, and the implant screw 100 may have a curved surface having a greater curvature if it can obtain a greater axial force in a limited torque. have.

As mentioned above, although the present invention has been described in detail using preferred embodiments, the scope of the present invention is not limited to specific embodiments and should be construed according to the appended claims. In addition, those skilled in the art will understand that many modifications and variations are possible without departing from the scope of the present invention.

100; implant screw 110; head
120; body part 121; first body
122; second body 122a; thread
130; seat 131; first curved surface
132; second curved surface 133; 3rd curved surface

Claims (6)

Fasten the fixture and the abutment integrally,
a head portion having a set volume;
a body portion provided under the head portion, having a smaller diameter than the head portion, and screwed to the fixture; and
A seating surface portion provided between the head portion and the body portion to connect the head portion and the body portion, and made of a curved surface having at least one curvature;
The seat surface portion,
A first curved surface extending upward from one end of the body in the longitudinal direction, extending outward in the radial direction, increasing in diameter toward the upper side, and having a first curvature in the height direction, and
a second curved surface extending upward from the upper end of the first curved surface and extending radially outwardly and connected to the head part, the diameter increases toward the upper side, and a second curved surface having a second curvature in the height direction,
The first curvature is smaller than the second curvature screw for implants.

delete According to claim 1,
The seating surface portion is in contact with the inner circumferential surface of the abutment,
The first curved surface contacting one side of the inner circumferential surface of the abutment has a larger contact area in a radial direction than the second curved surface contacting the other side of the inner circumferential surface of the abutment screw for implantation.
According to claim 1,
The center of the circle forming the first curved surface is radially outward and higher in the height direction than the center of the circle forming the second curved surface.
According to claim 1,
The seating surface portion further includes a third curved surface provided between the first curved surface and the second curved surface, the diameter increasing toward the upper side, and having a third curvature in the height direction,
The third curvature is greater than the first curvature and smaller than the second curvature screw for implants.
According to claim 1,
The body part,
a first body provided on a side of the seating surface and in contact with an inner circumferential surface of the abutment; and
and a second body extending downward from the longitudinal end of the first body, inserted into the inner circumferential surface of the fixture, and having a thread formed on the longitudinal outer circumferential surface.

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