KR200386621Y1 - Dental Implant - Google Patents

Abstract

The present invention relates to a dental implant, in which the dental implant having a fixture embedded in the alveolar bone, the fixture is a closed loop of a cross-section that is continuous over the entire circumference substantially along the rim at the upper end thereof ( It is formed in a closed loop), the outer diameter of the outer wall is characterized in that it has an outer inclined contact coupling portion that increases toward the predetermined distance from the upper end. Thereby, the fixture and abutment can prevent the abutment screw from fatigue fracture or loosening joining the fixture and the abutment and the abutment of the abutment relative to the fixture. Not only can have a strong bond between the teeth, but also can strengthen the bond between the fixture and the abutment with the same thickness as conventional, resulting in a thin diameter fixture placed in a patient with a thick gum bone, Provided is a dental implant which can reduce the phenomenon of the fixture upper end being broken by the lateral load than in the prior art.

Description

Dental Implants {Dental Implant}

The present invention relates to a dental implant, and more particularly, to a dental implant that can make the bond between the fixture and the abutment stronger than before.

Implants are implants that are originally repaired when human tissue is lost, but dental implants are implants of artificial teeth. To replace the lost tooth roots (roots), a artificial tooth called a fixture made of titanium, etc., which is not rejected by the human body is planted in the bone that has fallen out, and then an artificial tooth called crown is placed. It is a cutting-edge procedure to restore the function of teeth by fixing to artificial root through abutment). In the case of a general prosthesis or denture, the surrounding teeth and bones are damaged over time, but the implants do not damage the surrounding dental tissues, and they have the advantage that they can be used semi-permanently because they have the same function or shape as natural teeth and do not cause tooth decay.

Such a dental implant 101, as shown in the cross-sectional view of the dental implant according to the conventional embodiment of Fig. 1, upper and lower alveolar bone (hereinafter, 'alveolar bone) of the missing tooth region, such as the root of a natural tooth And a fixture 110 embedded in the crown 107 to support the artificial crown 130, and abutment connecting the fixture 110 and the artificial crown 130, or The abutment 120, the abutment screw 125 for coupling the abutment 120 to the fixture 110, and the abutment 120 are fixed in the oral cavity to reproduce the same shape and function as a natural tooth. Can be provided with artificial crown (Crown) (130). In this configuration, the fixture 110 is bone-bonded to be completely fixed to the alveolar bone 107 like the root of a natural tooth, and after the bone adhesion, the abutment 120 is fixed to the fixture 110 of the implant. ) Is connected to the abutment screw 125 and the artificial crown (130) is mounted thereon to complete the implant artificial tooth.

Here, look at the coupling relationship between the abutment 120 and the fixture 110 in more detail, the abutment through-hole 123 is formed in the center of the abutment 120 and the abutment screw (through the abutment through-hole 123) 125 to insert the internal thread 113 and the abutment screw 125 in the installation hole 112 formed concentrically with the abutment through-hole 123 of the abutment 120 at the center of the fixture 110. By screwing the abutment 120 is fixed to the top of the fixture (110). In addition, the artificial dental crown 130 is supported by the fixture 110 by allowing the contact portion to be coupled with an adhesive or the like in the contact state while wrapping the abutment 120 at the upper end of the abutment 120.

However, in the dental implant according to the related art, the fixture has a hexagonal protrusion on the upper end, and a hexagonal bite groove corresponding to the protrusion is formed inside the lower end of the abutment. The fixture and the abutment are connected by engaging the bite groove and screwing the fixture with the abutment screw. This coupling structure is a structure that is difficult to support the load in the lateral direction even though the load in the vertical direction can be well supported. When a lateral load was applied to the abutment, the abutment screw was broken or loosened due to fatigue phenomenon. In more detail, in order to facilitate a procedure performed in a person's mouth, the hexagonal protrusion of the fixture and the hexagonal bite groove of the abutment cannot be manufactured to be fit and can be manufactured so as to be assembled with proper play. In this case, the upper surface of the protrusion of the fixture is in contact with the lower surface of the abutment, but the side surface of the protrusion and the side surface of the abutment are coupled to be spaced apart from each other, and in this state, the lateral direction to the abutment or artificial crown is in this state. When the load is applied, the bite groove of the lower part of the abutment is elastically or plastically deformed and opened. After that, when the load in the lateral direction is continuously applied, the abutment of the fixture is rotated back and forth at a predetermined angle. And rotating from side to side is repeated. That is, the abutment and the artificial crown are combined to reciprocate back and forth and to the left and right relatively on the fixture, and the abutment screw is fatigue fractured or loosened by the alternating lateral loads. loosening). In addition, a slightly different phenomenon, since the contact area between the fixture and the abutment is not wide, when the external force that rotates the abutment relative to the fixture acts on the abutment, the friction force that resists the abutment tends to be relatively rotated relative to the fixture. There was also a problem that often occurs. Considering that the occlusal force of the teeth reaches 40kg to 50kg corresponding to the virgin weight, there was a problem that the above-described problem of the dental implant was difficult to solve.

In order to solve this problem, a dental implant has been introduced so that the contact connection between the abutment and the fixture becomes a conical contact connection. 2 is a cross-sectional view of a dental implant according to another conventional embodiment, as shown in the upper end portion of the fixture 210 of the dental implant 201 according to another conventional embodiment from the top to the lower An inner inclined contact portion 211 having an inner diameter is provided, and the lower end portion of the abutment 220 is inserted into the fixture 210 so as to contact the inner inclined contact portion 211 of the fixture 210 toward the lower end thereof. An outer inclined contact portion 221 is provided in which the outer diameter becomes small. In addition, the lower end of the fixture 210 is provided with a plurality of self-tapping grooves 214 symmetrically disposed about a central axis for self-tapping when the fixture 210 is inserted into the hole of the alveolar bone, and the abutment 220 At the center of the abutment through hole 223 is formed, abutment screw 225 is inserted through the abutment through hole 223, and abutment through hole of abutment 220 in the center of the fixture 210 is formed. The abutment column 220 can be fixed to the upper end of the fixture 210 by screwing the internal thread portion 213 and the abutment screw 225 in the installation hole 212 formed concentrically with the 223. With this structure, the outer inclined contact portion 221 of the abutment 220 comes into contact with the inner inclined contact portion 211 of the fixture 210 to form a conical contact.

The dental implant 201 according to another conventional embodiment as described above has a conical contact in which the inclined end surfaces of the inner inclined contact portion 211 and the outer inclined contact portion 221 are in contact with each other. Unlike the dental implant according to the embodiment, the interference fit between the fixture and the abutment is possible in the human mouth, and because the abutment screw can support the lateral load better, the abutment screw is fatigue fracture The phenomenon of the abutment or loosening and the relative rotation of the abutment relative to the fixture by the contact friction force between the fixture and the abutment can be reduced than in the conventional embodiment. .

However, in the dental implant according to another embodiment of the present invention, in the case of patients with a non-thick gum bone it is not possible to plant a thick fixture to be implanted with a thin fixture, in such a case formed inside the fixture If the inner contact inclined portion is provided, the thickness of the upper end of the fixture becomes considerably thin. Therefore, if the load in the lateral direction is repeatedly applied, the upper end of the fixture is easily damaged by fatigue, and eventually the procedure of the implant is failed. there was. This in turn makes it impossible for implants with a conical connection to patients with non-thick gum bone.

Accordingly, an object of the present invention is to solve the problems of the prior art, in which the abutment screw joining the fixture and the abutment is fatigue fractured or loosened, and the abutment is fixed to the fixture. Not only can there be a strong bond between the fixture and the abutment, which can prevent the relative rotation, and also the bond between the fixture and the abutment can be made stronger than before, with the same thickness as before, so that the gum bone is not thick. It is to provide a dental implant that can reduce the phenomenon that the upper end of the fixture caused by the lateral load, which occurs in the thin diameter fixture placed in the patient than conventional.

The object is, according to the present invention, in a dental implant having a fixture embedded in an alveolar bone, the fixture having a closed loop of a cross section continuous over substantially the entire circumference along the rim at the upper end thereof. The outer diameter of the outer wall is achieved by a dental implant, characterized in that it has an outer inclined contact coupling portion that becomes larger from the top to a predetermined distance downward.

Here, the outer inclined contact coupling portion is preferably formed in a closed loop shape of the same cross-section that is substantially continuous over the entire circumference along the edge of the fixture.

In addition, the outer inclined contact coupling portion may be provided to be inclined 5 degrees to 45 degrees with respect to the central axis of the fixture.

The apparatus may further include an abutment coupled to an upper end of the fixture to support an artificial crown having a shape substantially the same as that of a natural tooth, wherein the abutment is formed at a lower end of the substantially entire circumference along an edge. It is formed in a closed loop (closed loop) shape of the cross section continuous over, and has an inner inclined contact coupling portion of the inner wall of the inner wall is reduced from the lower end to the predetermined distance from the upper side, when the abutment is coupled to the fixture, the The outer inclined contact coupling portion of the fixture is in contact with the inner inclined contact coupling portion of the abutment, to support the load transmitted through the inner inclined contact coupling portion, by the contact friction force between the inner inclined contact coupling portion It is desirable to prevent the abutment from rotating relative to the fixture.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

3 is a perspective view of a dental implant according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the dental implant of Figure 3, as shown in these figures, dental implant according to an embodiment of the present invention (1) has a fixture (10) embedded in the alveolar bone (not shown), the fixture (10) at the upper end, the outer diameter of the outer wall is increased toward the lower portion from the upper end to a predetermined distance, the edge portion Accordingly, it has an outer inclined contact coupling portion 11 formed in a closed loop shape having a cross section substantially continuous over the entire circumference.

Fixture (10) is usually made of pure titanium or titanium alloy or other non-human rejection metal or metal alloy or ceramic, artificial dental implants (30) are planted in the alveolar bone of the missing tooth, such as the teeth of natural teeth It is a fixture supporting the. The fixture 10 can have various shapes, but in this embodiment, the upper ends form micro threads (approximately 0.2 mm or less) and the lower ends are larger (approximately 0.3 mm to 0.6 mm) macro threads. (macro threads) are formed, and in the center of the fixture 10, there is formed an installation hole 12 recessed to a predetermined depth in the longitudinal direction from the top to the inside thereof, and forms the installation hole 12. The inner threaded portion 13 is formed on the inner wall with a thread. As described above, the outer inclined contact coupling portion 11 is provided at the upper end of the fixture 10 so that the outer diameter increases from the upper end to the lower portion by a predetermined depth, and the fixture 10 is provided at the lower end of the fixture 10. Self-tapping grooves 14 are provided that are symmetrically disposed about the central axis for self tapping when inserted into the opening of the alveolar bone. When the abutment 20 and the fixture 10 are coupled, the outer inclined contact coupling portion 11 comes into contact with the inner inclined contact coupling portion 21 at the lower end of the abutment 20, which will be described later. The contact coupling portion 11 is formed in a closed loop shape of the same cross-section that is substantially continuous over the entire circumference along the edge of the fixture 10. Although in this embodiment, the same end surface is continuous over the entire circumference along the rim, the outer inclined contact coupling portion 11 is provided, but if the outer inclined contact coupling portion 11 can be formed as a continuous closed loop outer wall It may not necessarily be the same cross section. In addition, the outer inclined contact coupling portion 11 may be provided to be inclined at various angles with respect to the central axis of the fixture 10 at various angles, for example, 5 degrees to 45 degrees. In this embodiment, 11 degrees (α) are provided to be inclined. .

5 is a view showing the area of each inclined contact coupling in order to compare the dental implant according to another conventional embodiment, the dental implant according to an embodiment of the present invention, as shown in the present invention The fixture 10 of the dental implant 1 according to this invention has a much wider inclined contact coupling than the fixture 201 of a conventional dental implant at the same thickness. In more detail, in the conventional dental implant fixture, the inner inclined contact portion 211 is formed by digging into the fixture, so that a certain thickness must be secured at the top thereof, and thus the widest portion of FIG. The diameter (D ₁ ) can not only be formed smaller than the diameter of the fixture 210, but the fixture 10 of the dental implant according to the present invention forms the outer inclined contact coupling portion 11 to the outside of Figure 5 Since the widest diameter D ₂ of (b) can be formed to be the same as the diameter of the fixture 10 (D ₂ > D ₁ ) the outer side having a much larger area on the fixture 10 of the same diameter than the conventional one. It is possible to form the inclined contact coupling portion (11). In addition, when the area of the outer inclined contact coupling portion 11 in the fixture 10 having the same diameter becomes wider, the area of contact with the inner inclined contact coupling portion 21 at the lower end of the abutment 20 becomes wider as a result. It means that the fixture 10 of the same diameter can be obtained with a strong bond with the abutment 20 than conventional. This makes it possible to obtain a strong bond with the abutment 20 even in the fixture 10 having a thin thickness, so that a thin fixture 10 suitable for the patient can be placed in the gum bone, which is why the gum bone is not thick. In the case of patients, it is possible to implant implants with a conical contact, thereby expanding the implant target.

3 to 4 again, the dental implant 1 according to an embodiment of the present invention, the artificial crown (Crown) 30 which is substantially the same shape as the natural tooth and is supported by the fixture 10 Abutment 20 to connect the abutment 20 and an abutment screw 25 to fix the abutment 20 to the fixture 10 may be further provided.

The abutment 20 is also referred to as abutment, which directly connects the fixture 10 and the artificial crown 30 through the gum and has a hollow cylindrical shape. In addition, the abutment 20 has an inner diameter of the inner wall of the upper end of the fixture 10 corresponding to the outer inclined contact coupling part 11 of the upper end of the fixture 10 as it goes upward from the lower end to a predetermined distance, but substantially the entire circumference along the rim. It has an inner inclined contact coupling portion 21 having a closed loop shape of a cross section continuous over. In addition, the abutment 20, the abutment through-hole 23 formed in the longitudinal direction therein so as to be connected to the contact coupling hole 22 formed by the inner inclined contact coupling portion 21, the abutment through-hole 23 ) Is provided between each inner wall forming the contact coupling hole 22 and has a locking wall 24 having a diameter smaller than the diameter of the inner wall forming the abutment through hole 23. In this configuration, the abutment screw 25 is inserted through the abutment through-hole 23 and the contact coupling hole 22 to concentrically with the abutment through-hole 23 of the abutment 20 at the center of the fixture 10. The abutment 20 can be fixed to the upper end of the fixture 10 by screwing the internal thread portion 13 of the mounting hole 12 and the abutment screw 25 formed therein.

 The inner inclined contact coupling portion 21 of the abutment 20, the inner diameter of which becomes smaller from the lower end to the upper predetermined distance is in contact with the wrap around the upper end of the fixture 10, in this embodiment the inner inclined contact coupling 21 ) Is formed in the shape of a closed loop of the same cross-section that is substantially continuous over the entire circumference along the edge of the abutment 20. Although in this embodiment the same end surface is continuous over the entire circumference along the edge portion, the inner inclined contact coupling portion 21 is provided, but the inner inclined contact coupling portion 21 can be formed as a continuous closed loop inner wall. If so, it is not necessarily the same cross section. With this structure, the inner inclined contact coupling portion 21 of the abutment 20 is contact-contacted in such a manner as to surround the outer inclined contact coupling portion 11 of the fixture 10, which is the same diameter fixture 10 The abutment screw is much stronger and tighter than the conventional abutment on the basis of), thereby supporting the vertical load as well as the lateral load better, thereby abutting the fixture 10 and the abutment 20. In addition to preventing the fatigue fracture or loosening of the 25, the upper end is easily broken as in the prior art, even in the thin fixture 10 that is placed in a patient whose thickness is not thick. To be prevented. In addition, the wide contact area between the inner inclined contact coupling portion 21 of the abutment 20 and the outer inclined contact coupling portion 11 of the fixture 10 is a structure that can generate a large friction force when an external force is applied to the above-mentioned. In addition to the effect, even if an external force acting to allow the abutment 20 to rotate relative to the fixture 10 is also effective, the abutment 20 can be prevented from rotating relatively to the fixture 10. Such a conical connection may be referred to as a reverse conical connection.

On the other hand, the abutment screw 25 has a larger outer diameter than the body 27 and the body 27 provided with an outer threaded portion 28 screwed to the inner threaded portion 13 at the lower end, and the locking wall ( It has a head 29 which is latched by 24 and presses the abutment 20 downward. The external screw portion 28 formed on the body 27 is coupled to the internal screw portion 13 of the fixture 10 to fix the abutment 20 to the fixture 10, and the head 29 is formed of the abutment 20. The locking wall 24 is pressed downward so that the inner inclined contact coupling portion 21 of the abutment 20 and the outer inclined contact coupling portion 11 of the fixture 10 are in close contact with each other.

Artificial dental crown 30 is fixed in the oral cavity by the abutment 20 to serve as a tooth, the lower end of the artificial dental crown 30 is coupled to the upper end of the abutment 20 between the adhesive is generally harmless to the human body Used.

 By this configuration, the fixture 10 of the dental implant (1) according to the present invention is bone-bonded so as to be completely fixed to the bone like the root of a natural tooth, the bone abutment through the center of the abutment (20) after bone adhesion ( 23) and the abutment screw 25 through the contact coupling hole 22 to screw the inner screw portion 13 and the abutment screw 25 of the mounting hole 12 in the center of the fixture 10 to the abutment screw ( 20) is fixed to the top of the fixture (10). At this time, the outer inclined contact coupling portion 11 of the fixture 10 and the inner inclined contact coupling portion 21 of the abutment 20 is in contact with each other. Then, when the abutment 20 is combined to wrap the lower end of the artificial dental crown 30, the implant artificial tooth is completed.

In the above-described embodiment, the outer inclined contact coupling portion of the fixture has been described in the same cross-section, but if the outer inclined contact coupling portions can be formed in the outer wall in the form of a continuous closed loop, respectively, the cross section in which the shape of the inner wall changes is defined. It may not necessarily have the same cross section as the outer inclined contact coupling portion having.

In addition, in the above-described embodiment, the outer inclined contact coupling portion of the fixture is inclined at about 11 degrees with respect to the central axis of the fixture, but it may be formed in various ways such as 5 degrees or 45 degrees.

In addition, in the above-described embodiment, the micro-thread and the macro-thread are described above with respect to the fixtures formed at the upper and lower ends, respectively, but the fixture may be formed only the micro-thread, only the macro-thread, or alternatively the micro-thread and the macro-thread can be formed. Of course.

As described above, according to the present invention, the abutment screw coupling the fixture and the abutment is prevented from fatigue fracture or loosening, and the abutment is prevented from being rotated relative to the fixture. Not only can have a strong bond between the fixture and the abutment, but also can make the bond between the fixture and the abutment stronger than conventional, with the same thickness as the conventional, so that the diameter of the implanted in the patient who is not thick in the gum bone There is provided a dental implant that can reduce the phenomenon of the upper end of the fixture caused by the lateral load generated in the fixture than in the prior art. As a result, even in patients with non-thick gum bones, the thin fixtures can be successfully placed and maintained, thereby expanding the application of implant procedures.

1 is a cross-sectional view of a dental implant according to a conventional embodiment,

2 is a cross-sectional view of a dental implant according to another embodiment of the prior art,

3 is a perspective view of a dental implant according to an embodiment of the present invention

4 is a cross-sectional view of the dental implant of FIG.

5 is a view showing the area of each inclined contact coupling portion for comparing the dental implant according to another conventional embodiment, and the dental implant according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

     1: dental implant 10: fixture

    11: outside inclined contact coupling portion 12: installation hole

    13: internal thread 14: self-tapping groove

    20: abutment 21: inner inclined contact coupling portion

    22: contact coupling hole 23: rent through hole

    24: stopping wall 25: abutment screw

    27: body 28: external thread

    29 head 30 artificial crown

Claims (4)

In a dental implant having a fixture embedded in the alveolar bone, The fixture is formed in a closed loop shape of a cross section that is substantially continuous over the entire circumference along an edge portion at an upper end portion, and has an outer slope contact coupling portion whose outer diameter of the outer wall increases from the upper end to a predetermined distance downward. Dental implant, characterized in that. The method of claim 1, The outer inclined contact coupling portion is a dental implant, characterized in that formed in the form of a closed loop (closed loop) of the same cross-section that is substantially continuous over the entire circumference along the edge of the fixture. The method of claim 1, The outer inclined contact coupling portion is a dental implant, characterized in that inclined 5 degrees to 45 degrees with respect to the central axis of the fixture. The method according to any one of claims 1 to 3, It further comprises an abutment coupled to the upper end of the fixture for supporting an artificial crown (Crown) having a shape substantially the same as natural teeth, The abutment is formed in a closed loop shape of a cross section that is substantially continuous over the entire circumference along the edge portion at the lower end portion, and has an inner sloping contact coupling portion whose inner diameter of the inner wall decreases toward the upper portion from the lower end to a predetermined distance. Has, When the abutment is coupled to the fixture, the outer inclined contact coupling portion of the fixture is in contact with the inner inclined contact coupling portion of the abutment to support a load transmitted through the inner inclined contact coupling portion, And a dental implant for preventing relative rotation of said abutment relative to said fixture by contact frictional forces between said inclined contact coupling portions.