KR200282969Y1 - Non loosening dental implant device - Google Patents

Abstract

The present invention relates to an implant device for artificial teeth, in particular a fixture 10 placed in the alveolar bone, the abutment 15 coupled to the upper hexagonal head 12 of the fixture 10, and the The abutment fixing screw 20 for fixing the abutment 15 to the fixture 10 and the upper prosthesis are coupled to the outside and cover the head portion 23 of the abutment fixing screw 20. Cylinder 25 coupled to the upper end of the abutment 15 and the cylinder fixing screw 30 for fixing the cylinder 25 by being fastened to the abutment fixing screw 20 through the cylinder 25 In the implant device for artificial teeth, the abutment fixing screw 20 and the cylinder fixing screw 30 are each flange portion 23a and the head of the inclined shape toward the radially outward from the center These fixing screws 20 and 30 may be fastened to the mating part, including 31. The flange portion 23a and the head portion 31 are in contact with the upper surface of the mating part and are horizontally deformed, and the elastic restoring force generated in the state is a screw to which these fixing screws 20 and 30 and the fixing screws are respectively coupled. By increasing the coefficient of friction between the holes, these screws are not easily released from the threaded holes of the mating components.

Description

Non loosening dental implant device

The present invention relates to an implant device for artificial teeth, and more particularly to an implant device for artificial teeth that does not release itself by the occlusal force even after the occlusal force is applied to the gum.

The implant device installed on the patient's gum when the tooth is to be treated is usually implanted into the alveolar bone as shown in Figure 1, the upper hexagonal head 12 of the fixture (10) After the abutment 15 is coupled to the abutment fixing screw 20 to the fixture 10 and the upper prosthesis is coupled to the outer circumferential surface of the cylinder 25, the head of the abutment fixing screw 20 is fixed. The cover section 23 is coupled to the upper end of the abutment 15, and then the cylinder 25 is fixed to the abutment fixing screw 20 by the cylinder fixing screw 30.

In the conventional implant device, the upper hexagonal head 12 of the fixture 10 is inserted into the hexagonal groove 17 provided at the lower end of the abutment 15 so as to be coupled to each other between the hexagonal head and the hexagonal groove. There is a fine but inevitably a clearance is formed so that the abutment 15 is not firmly coupled to the fixture 10 is shaken as fine as the clearance. Therefore, if the bite force greater than the pre-load applied to the fixing screw repeatedly acts in the direction of loosening the screw, the abutment 15 rotates finely as much as its clearance to loosen the fixing screw.

In this way, if the screw is loosened after the procedure, a cement-type implant causes various problems such as having to re-operate the upper prosthesis.

The present invention is designed to solve the problems of the conventional implant device as described above, it is an object of the present invention to provide an implant device that prevents the fixing screw loosening by the occlusal force after the procedure.

The implant device of the present invention for achieving the above object is a fixture that is implanted in the alveolar bone, the abutment is coupled to the upper hexagonal head of the fixture, and the abutment is fastened to the fixture An abutment fixing screw for fixing the butt to the fixture, an upper prosthesis coupled to the outside, and a cylinder coupled to the upper end of the abutment while covering the head of the abutment fixing screw, and through the cylinder In the implant device for artificial teeth including a cylinder fixing screw for fixing the cylinder by fastening to the butt fixing screw, the abutment fixing screw and the cylinder fixing screw is a partial friction portion in the longitudinal direction around the outer peripheral surface of each thread portion It becomes the structure covered with. The present invention reinforces the fastening force by increasing the friction coefficient between the fixing screw and the screw of the screw hole to which the fixing screw is coupled.

In another embodiment, an implant device for an artificial tooth according to the present invention includes a fixture that is placed in an alveolar bone, an abutment coupled to an upper hexagonal head of the fixture, and penetrates the abutment to the fixture. The abutment fixing screw that secures the abutment to the fixture by being fastened, the upper prosthesis is coupled to the outside, and the cylinder is coupled to the upper end of the abutment while covering the head portion of the abutment fixing screw and through the cylinder In the implant device for artificial teeth including a cylinder fixing screw for fixing the cylinder by fastening to the abutment fixing screw,

The head portion of the abutment fixing screw and the head portion of the cylinder fixing screw each form a flange portion which is inclined downward from the center to the radially outer side so that the flange portion is engaged when these fixing screws are fastened to the mating part. The elastically restoring force generated in contact with the top surface of the part and generated in that state increases the friction force between these fixing screws and the threaded holes to which the fixing screws are respectively engaged so that these fixing screws do not spontaneously loosen from the threaded holes of the mating components. It is to avoid.

Another embodiment of the implant device for artificial teeth according to the present invention is formed by inclining the bottom surface of the head of the fixing screw at a predetermined angle is changed horizontally in contact with the upper surface of the mating component when the fixing screw is fastened to the mating component, The elastic restoring force generated in that state increases the friction force between these fixing screws and the screw holes to which the fixing screws are respectively coupled so that these fixing screws do not spontaneously loosen from the screw holes of the counterpart.

1 is a cross-sectional view of the conventional implant implant for artificial teeth,

Figure 2 is a cross-sectional view of the coupling device for the artificial tooth implant device before the head of the fixing screw elastic deformation according to the present invention,

3 is a cross-sectional view of the coupling device for the implant device for artificial teeth after the head portion of the fixing screw elastic deformation according to the present invention,

Figure 4 is a view showing a separate cylinder fixing screw and abutment fixing screw of the implant device for artificial teeth according to the present invention,

5 is a view showing another embodiment of the cylinder fixing screw.

※ Explanation of code about main part of drawing ※

10: fixture 11: threaded portion

12: hexagon head 13: screw hole

15: abutment 16: hexagon head

17: hexagonal groove 18: through hole

20: abutment fixing screw 21: thread part

22: screw hole 23: head portion

23a: flange 25: cylinder

26: hexagonal groove 27: receiving groove

28: through hole 30: cylinder fixing screw

31: head portion 32: screw portion

Hereinafter, an embodiment of the implant device for artificial teeth according to the present invention will be described in detail according to the accompanying drawings.

Figure 2 is a cross-sectional view showing a coupling section of an embodiment of the implant device for artificial teeth according to the present invention, showing the state before the fixing screws are completely fastened to the mating parts. The implant device for artificial teeth of the present invention shown in FIG. 2 includes a fixture 10 provided on the outer circumferential surface and implanted in the alveolar bone. The fixture 10 has a hexagonal head portion 12 formed at an upper end thereof, and a screw hole 13 formed along a central axis direction at an upper end thereof. The abutment 15 has a hexagonal groove 17 for accommodating the hexagonal head 12 of the fixture 10 at its bottom and a through hole 18 is formed in the central axis direction. The abutment 15 is fixed so as not to rotate relative to the fixture 10 by coupling the hexagonal groove 17 of the abutment 15 to the upper hexagonal head 12 of the fixture 10. .

The abutment fixing screw 20 passes through the through hole 18 of the abutment 15 and is fastened to the screw hole 13 of the fixture 10, and the head 23 is shown in FIG. 4. As shown in the figure, a hexagonal head is formed, and a lower end is provided with a flange portion 23a extending radially outward from the head portion 23. In addition, the flange portion 23a is formed to be inclined downward by a predetermined angle α from the center to the outside in the radial direction. The thickness h of the flange portion 23a is preferably formed to a thickness that can be elastically deformed to a predetermined external force.

Therefore, the hexagonal groove 12 of the abutment 15 is fitted to the hexagonal head 12 of the fixture 10 to engage the abutment 15, and then the abutment above the abutment 15. When the abutment fixing screw 20 is rotated so that the threaded portion 21 is screwed into the screw hole 13 of the fixture, the threaded portion 21 of the abutment fixing screw 20 While being lowered while being engaged with the screw hole 13 of the fixture 10, the flange portion 23a of the head portion 20 is brought into contact with the upper end surface of the abutment 15 as shown in FIG. 2. The abutment 15 is fixed to the fixture 10 without lowering abnormally. As the abutment fixing screw 20 is further rotated in this state, the flange portion 23a is horizontally deformed, and as shown in FIG. 3, the abutment 15 is brought into close contact with the top surface of the abutment 15. 15) is more firmly fixed to the fixture (10).

In this state, the flange portion 23a of the abutment fixing screw 20 tries to ascend upward with respect to the fixture 10 by the elastic restoring force, and therefore, the screw portion 21 and the fixture 10 by the force. The friction force between the screw holes 13 of the tightening force is reinforced, so that even if the bite force will not be easily released.

The upper end of the abutment 15 and the abutment fixing screw 20 coupled as described above are accommodated in the cylinder 25 coupled thereon, as shown in FIG. 2. The cylinder 25 has a hexagonal groove 26 coupled to the upper hexagonal head 16 of the abutment 15 at the lower end, the upper prosthesis is coupled to the outer circumferential surface, the cylinder fixing screw on the upper end An accommodation groove 27 is provided through which the 30 passes and the head 31 is seated. Therefore, the cylinder 25 has a hexagonal groove 26 is coupled to the hexagonal head 16 of the abutment 15 is coupled to the upper end of the abutment 15, the cylinder fixing screw 30 is The screw portion 32 penetrates the through hole 28 of the cylinder 25 and is fixed to the screw hole 13 of the abutment fixing screw 20 to fix the cylinder 25.

Here, the head portion 31 of the cylinder fixing screw 30 also has a shape inclined downward from the center to the radially outer side, similarly to the flange portion 23a of the abutment fixing screw 20, the head portion The thickness of 31 has a thickness that can be elastically deformed to a predetermined external force. Accordingly, the screw portion 32 of the cylinder fixing screw 30 is gradually lowered while being fastened to the screw hole 22 of the abutment fixing screw 20, and then the head portion 31 of the cylinder fixing screw 30 is the cylinder 25. The head of the cylinder fixing screw 30 is horizontally deformed if the cylinder fixing screw 30 is continuously tightened in contact with the bottom surface of the receiving groove 27 of While being in close contact with the bottom surface of the receiving groove 27 of the cylinder (25). In this state, the head portion 31 of the cylinder fixing screw 30 generates a force to rise upward with respect to the cylinder 25 by the elastic restoring force, acting on the threaded portion 32, and thus the head portion 31 of the cylinder fixing screw 30 The friction force is increased between the screw holes 22 of the butt fixing screw 20, so that the tightening force is strengthened.

On the other hand, as another embodiment of the implant device for artificial teeth of the present invention as shown in Figure 5 the lower surface of the head portion 31 of the cylinder fixing screw 30 from one edge to the other edge at a predetermined angle (α) As long as it can be gradually inclined upwardly sloped structure. In this case, when the cylinder fixing screw 30 is rotated clockwise and fastened to the upper threaded hole 22 of the abutment fixing screw 20, the bottom surface of the head 31 of the cylinder fixing screw 30 becomes a cylinder. The force in close contact with the bottom surface of the receiving groove 27 of the 25 is gradually increased to increase the fastening force, so that the cylinder fixing screw 30 is firmly fastened.

As described above, the artificial tooth implant device of the present invention, even if there is a clearance between the hexagonal head of the fixture and the hexagonal groove of the abutment coupled thereto, the frictional force between the fixing screw and the screw hole combined with the fixing screw As the tightening force is increased, the fixing screw or cylinder fixing screw for fixing the abutment is not easily loosened, and thus the life is long because there is no shaking of the artificial tooth.

Claims (1)

The fixture 10 placed in the alveolar bone, the abutment 15 coupled to the upper hexagonal head 12 of the fixture 10, and the fixture 15 through the abutment 15 10, the abutment fixing screw 20 for fixing the abutment 15 to the fixture 10 and the upper prosthesis are coupled to the outside and the head portion 23 of the abutment fixing screw 20 are fastened to the abutment 15. ) Is fixed to the abutment fixing screw 20 by passing through the cylinder 25 and the cylinder 25 coupled to the upper end of the abutment (15) to secure the cylinder 25 In the implant device for artificial teeth including a set screw (30), The abutment fixing screw 20 is provided with a flange portion 23a inclined downward from the center to the radially outward so as to be deformed in the horizontal direction when receiving the tightening torque, and the cylinder fixing screw 30 is Implant apparatus for an artificial tooth, characterized in that it further comprises a head portion 31 inclined downward from the center to the radially outward so as to be deformed in the horizontal direction when receiving the tightening torque.