CN216318109U

CN216318109U - Modular layered dental implant

Info

Publication number: CN216318109U
Application number: CN202121888260.9U
Authority: CN
Inventors: 张锦阳; 张潇; 陈贤帅
Original assignee: Foshan Angels Biotechnology Co ltd
Current assignee: Guangdong Zhongke Anchi Biotechnology Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2022-04-19
Anticipated expiration: 2031-08-12

Abstract

The utility model discloses a modular layered dental implant, which comprises: the module layer comprises a plurality of module units, all the module units are stacked in the vertical direction, every two adjacent module units are detachably connected, the outer side wall of at least one module unit is provided with a plurality of accommodating holes, and the outer side wall of at least one module unit is provided with a first external thread; the bottom layer is detachably connected to the bottom of the module layer, and the outer side wall of the bottom layer is provided with second external threads. According to the modular layered dental implant, the module unit on the top layer is removed through the repairing tool and is cleaned and replaced, so that the problem of inflammation around the implant is effectively solved; aiming at the alveolar bone loss condition of a patient, a top module unit with proper height and diameter can be selected for replacement, so that personalized repair is realized. The utility model can be applied to the field of dental implants.

Description

Modular layered dental implant

Technical Field

The utility model relates to the field of dental implants, in particular to a modular layered dental implant.

Background

The dental implant surgery generally comprises drilling an implant hole in an alveolar bone of a missing site of a patient's tooth, implanting an implant into the implant hole, and fixing and installing a prosthetic denture on the implant. After the implant is implanted into the implant hole of the alveolar bone, if inflammation occurs at a contact position of an edge of the implant hole of the alveolar bone and an upper end of the implant, bone loss around the implant may be caused, thereby causing the implant to be loosened and to fail, and thus, it is necessary to treat the inflamed portion of the alveolar bone. However, the current treatment scheme is to extract the dental implant integrally, which is costly and risky, and the extraction process requires cutting off a large amount of alveolar bone, resulting in secondary damage to the alveolar bone. In addition, the traditional dental implant has fixed model and specification, and cannot perform personalized repair according to the condition of the alveolar bone of a patient.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a modular layered dental implant that solves one or more of the problems of the prior art and provides at least one of the advantages of the present invention.

The technical scheme adopted for solving the technical problems is as follows:

a modular layered dental implant comprising:

the module layer comprises a plurality of module units, all the module units are stacked in the vertical direction, every two adjacent module units are detachably connected, the outer side wall of at least one module unit is provided with a plurality of accommodating holes, and the outer side wall of at least one module unit is provided with a first external thread;

the bottom layer is detachably connected to the bottom of the module layer, and second external threads are arranged on the outer side wall of the bottom layer.

The utility model has the beneficial effects that: when the modular layered dental implant is implanted into an implant hole of an alveolar bone of a patient, the second external thread of the bottom layer is firstly screwed into the implant hole, the first external thread of the module unit is then screwed into the implant hole, and the first external thread is in threaded connection with the implant hole, and the second external thread of the bottom layer is in threaded connection with the implant hole, so that the modular layered dental implant is stably fixed in the implant hole; the plurality of accommodating holes of the module unit provide a space for alveolar bone growth so as to promote the alveolar bone to grow into the accommodating holes and enable the module unit to be tightly combined with the alveolar bone; if the top edge of the implant hole is inflamed, the module units on the module layer are sequentially detachably connected along the vertical direction, and the module units on the module layer are sequentially detached from top to bottom until all inflamed parts in the implant hole are exposed, so that the inflamed parts can be treated without pulling out the whole modularized layered dental implant; after the inflammation treatment is finished, replacing a new module unit and implanting the module unit into the implantation hole, and laminating the new module unit on the top of the original module unit until the whole implantation hole is filled; and the module unit with the accommodating hole is used for promoting the close combination of the alveolar bone and the module unit, the module unit with the first external thread is used for closely connecting the inner wall of the implantation hole, and because every two module units which are adjacent up and down in the module layer are detachably connected, the module unit with the accommodating hole and the module unit with the first external thread can be mutually replaced, and the module layer can be designed into functions according to the condition of the alveolar bone of a patient through the mutual combination and replacement of the module units with different functions.

The module unit on the top layer is removed through a repair tool and cleaned and replaced, so that the periodontitis problem is effectively solved. Aiming at the alveolar bone loss condition of a patient, a top module unit with proper height and diameter can be selected for replacement, so that personalized repair is realized.

As a further improvement of the above technical solution, a first connecting structure and a second connecting structure are respectively arranged at the bottom and the top of each module unit, the first connecting structure and the second connecting structure are connected together after being paired, every two module units which are adjacent up and down are divided into an upper module unit and a lower module unit, and the first connecting structure of the upper module unit is connected with the second connecting structure of the lower module unit in a matching manner.

The bottom and the top of each module unit are respectively provided with the first connecting structure and the second connecting structure, so that the structures of the module units for mutually detachable connection are the same, the position replacement of each module unit is facilitated, and the combination of each module unit is more convenient.

As a further improvement of the above technical solution, the first connecting structure is a circular truncated cone structure with a large top and a small bottom, the second connecting structure is a tapered hole structure with a large top and a small bottom, the taper of the outer sidewall of the first connecting structure is morse taper, and the taper of the inner sidewall of the second connecting structure corresponds to the taper of the outer sidewall of the first connecting structure.

When the modular layered dental implant is screwed into the implant hole, the second external thread of the bottom layer is screwed into the implant hole, the first connecting structure is a circular truncated cone structure with a large upper part and a small lower part, the second connecting structure is a tapered hole structure with a large upper part and a small lower part, and the first connecting structure of the upper module unit is inserted into the second connecting structure of the lower module unit, so that the first connecting structure of the upper module unit is connected with the second connecting structure of the lower module unit in a Morse taper manner, and the modular layered dental implant has strong mechanical stability, can effectively reduce micro-gaps and micro-motions, and has good biological sealing performance; and can transmit great moment of torsion, guarantee that each module unit on module layer can synchronous revolution, then can synchronous revolution between a plurality of module units that have first external screw thread, first external screw thread makes the hole inner wall of implanting form the internal thread, synchronous revolution between a plurality of module units that have first external screw thread, the internal thread of guaranteeing to implant the hole inner wall forms coherent thread profile to it is more smooth and easy to make modularization layer-stepping dental implant twist implant and implant the hole.

As a further improvement of the above technical solution, a third connection structure is disposed on the top of the bottom layer, the third connection structure is paired with the first connection structure and then connected together, and the first connection structure of the module unit located at the bottom end of the module layer is connected with the third connection structure in a matching manner.

The third connecting structure on the top of the bottom layer is matched with the first connecting structure of the module unit, so that the bottom layer and the bottom of the module layer are connected and detached more conveniently.

As a further improvement of the technical scheme, the module unit with the accommodating hole in the outer side wall is a bionic unit, and the outer diameter of the bionic unit is smaller than that of the second external thread.

The lateral wall of bionical unit is equipped with the accommodation hole, and the external diameter of bionical unit is less than the external diameter of second external screw thread, and the alveolar bone grows to the lateral wall of bionical unit, and the alveolar bone of new growth blocks up the space of bottom upside, makes the alveolar bone butt bottom of new growth, makes the bottom by firm fixed.

As a further improvement of the above technical solution, the module unit having the first external thread on the outer sidewall is a thread unit, and at least one bionic unit is provided between the thread unit and the bottom layer.

The lateral wall of the thread unit is provided with a first external thread, the first external thread is in threaded connection with the inner wall of the implantation hole, the second external thread of the bottom layer is in threaded connection with the inner wall of the implantation hole, and at least one bionic unit is arranged between the thread unit and the bottom layer, so that the bionic unit is favorably and stably fixed between the thread unit and the bottom layer.

As a further improvement of the above technical solution, an outer diameter of the screw unit is larger than an outer diameter of the second external screw.

The external diameter of the thread unit is larger than that of the second external thread of the bottom layer, so that the first external thread of the outer side wall of the thread unit can be in threaded connection with the inner wall of the implantation hole.

As a further improvement of the technical scheme, the outer diameters of all the bionic units are gradually increased from bottom to top.

When the modular layered dental implant is implanted into an implant hole of an alveolar bone, a gap exists between the outer side wall of the bionic unit and the inner wall of the implant hole, the outer diameters of all the bionic units gradually increase from bottom to top, and the gap gradually decreases from bottom to top, namely, the distance from the alveolar bone to the outer side wall of the bionic unit gradually decreases from bottom to top, and the time required for combining the bionic unit which is closer to the port position at the top end of the implant hole and the alveolar bone is shorter; if the top edge of the implant hole is inflamed, the module unit on the top layer is removed by a special repair tool and cleaned and replaced, so that the periodontitis problem is effectively solved; aiming at the alveolar bone loss condition of a patient, a top module unit with proper height and diameter can be selected for replacement, so that personalized repair is realized.

As a further improvement of the above technical solution, all the receiving holes located on any one of the outer side walls of the bionic unit are uniformly distributed along the axial direction and the circumferential direction of the bionic unit.

All the accommodating holes on the outer side wall of the same bionic unit are uniformly distributed along the axial direction and the circumferential direction of the bionic unit, so that the peripheral alveolar bone of the bionic unit uniformly grows to the periphery of the bionic unit, the alveolar bone on one side is prevented from growing at a higher speed, and the bionic unit is prevented from being skewed due to the extrusion of the alveolar bone with the higher growth speed.

Drawings

The utility model is further described with reference to the accompanying drawings and examples;

FIG. 1 is a schematic structural view of an embodiment of a modular layered dental implant according to the present invention;

FIG. 2 is a schematic cross-sectional view A-A of FIG. 1;

fig. 3 is an exploded view of an embodiment of the modular layered dental implant of the present invention.

100. Module layer, 110, bionic unit, 111, accommodation hole, 120, screw thread unit, 121, first external screw thread, 130, first connection structure, 140, second connection structure, 200, bottom layer, 210, second external screw thread, 220, third connection structure.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 3, the modular layered dental implant of the present invention is made as follows:

the modular layered dental implant comprises a module layer 100 and a bottom layer 200.

The shape of bottom layer 200 is big-end-up's round platform column structure, and the lateral wall of bottom layer 200 is equipped with second external screw thread 210, and the external diameter of second external screw thread 210 is from up increasing gradually down, and the top of bottom layer 200 is equipped with third connection structure 220, and third connection structure 220 is big-end-up's taper hole, and the tapering of third connection structure 220 inside wall is the morse tapering.

The module layer 100 is arranged on the top of the bottom layer 200, the module layer 100 is composed of a plurality of module units which are sequentially stacked along the up-down direction, the bottom of each module unit is provided with a first connecting structure 130, each first connecting structure 130 is a boss in a shape of a circular truncated cone with a large upper part and a small lower part, the bosses extend downwards, and the taper of the outer side wall of each first connecting structure 130 is Morse taper. The top of the module unit is provided with a second connecting structure 140, the second connecting structure 140 is a cavity with a large top and a small bottom, the shape of the cavity is matched with that of the boss, and the taper of the inner side wall of the cavity, the taper of the outer side wall of the boss and the taper of the inner side wall of the third connecting structure 220 are all equal. Every two adjacent module units from top to bottom are divided into an upper module unit and a lower module unit from top to bottom, a boss at the bottom of the upper module unit is inserted into a cavity at the top of the lower module unit, and the boss is connected with the Morse taper of the cavity, so that the upper module unit is connected with the lower module unit. The bosses at the bottom of the module units at the bottom end of module layer 100 are connected with the morse taper of third connection structure 220 at the top of bottom layer 200 so that the bottom of module layer 100 is connected with the top of bottom layer 200.

The height of the module unit is between 3mm and 4.5mm, the downward extending length of the boss is between 1.5mm and 2mm, and the taper of the outer side wall of the boss and the taper of the inner side wall of the cavity are between 2 degrees and 5 degrees.

The outer side wall of at least one module unit is provided with a plurality of accommodating holes 111, the module unit with the accommodating holes 111 on the outer side wall is the bionic unit 110, and the outer diameter of the bionic unit 110 is smaller than that of the second external thread 210 of the bottom layer 200. The accommodating holes 111 of the bionic unit 110 have various structures, for example, the accommodating holes 111 are circular holes, and all the accommodating holes 111 on the outer side wall of the same bionic unit 110 are uniformly distributed along the axial direction and the circumferential direction of the bionic unit 110; or, the outer side wall of the bionic unit 110 is a bone trabecula bionic structure, the bone trabecula bionic structure is an irregular three-dimensional reticular structure imitating the human bone trabecula tissue to be in a loofah sponge shape, and the accommodating hole 111 is a hole in the bone trabecula bionic structure. The outer diameter of each bionic unit 110 gradually increases from bottom to top, and the outer diameters of all bionic units 110 gradually increase from bottom to top, that is, for two upper and lower adjacent bionic units 110, the outer diameter of the bionic unit 110 on the lower side is smaller than that of the bionic unit 110 on the upper side.

The outer side wall of at least one module unit is provided with a first external thread 121, the module unit with the first external thread 121 on the outer side wall is a thread unit 120, and the outer diameter of the thread unit 120 is larger than that of a second external thread 210 of the bottom layer 200. The outer diameter of each screw unit 120 gradually increases from bottom to top, and the outer diameters of all screw units 120 gradually increase from bottom to top, that is, for two screw units 120 adjacent to each other, the outer diameter of the screw unit 120 on the lower side is smaller than that of the screw unit 120 on the upper side. And at least one bionic unit 110 is arranged between the thread unit 120 and the bottom layer 200.

In some embodiments, three or more modular units may be selected to be stacked in sequence from top to bottom to form the modular layer 100 according to the depth of the patient implantation hole; one screw thread unit 120 is provided, the screw thread unit 120 is located at the top end of the module layer 100, all the bionic units 110 are located below the screw thread unit 120, a plurality of bionic units 110 are arranged between the bottom layer 200 and the screw thread unit 120, and all the bionic units 110 are stably fixed between the screw thread unit 120 and the bottom layer 200 by utilizing the first external threads 121 on the outer side wall of the screw thread unit 120 to be in threaded connection with the top end of the inner wall of the implantation hole; or, there are a plurality of screw thread units 120, a plurality of bionic units 110, and the bionic units 110 and the screw thread units 120 are sequentially and alternately stacked to form the module layer 100; of course, the combination of the bionic units 110 and the thread units 120 is various and can be combined freely.

In some embodiments, the detachable connection between each two adjacent module units is various, for example, the first connection structure 130 at the bottom of the module unit is a screw, the second connection structure 140 at the top of the module unit is a screw hole, and the screw is in threaded connection with the screw hole; or, the second connection structure 140 is a circular hole, an annular limiting block is arranged on the inner wall of the circular hole, a notch is formed in the annular limiting block, the first connection structure 130 is a connection column, the connection column is matched with the inner hole of the annular limiting block in shape, a convex block is arranged on the outer wall of the connection column, the convex block is matched with the notch in shape, the connection column is inserted into the inner hole of the annular limiting block, the convex block penetrates through the notch, the connection column is rotated to enable the convex block to be staggered with the notch, and therefore the first connection structure 130 is connected with the second connection structure 140.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model as set forth in the claims appended hereto.

Claims

1. A modular layered dental implant characterized in that: the method comprises the following steps:

the module layer (100) comprises a plurality of module units, all the module units are stacked in the vertical direction, every two adjacent module units are detachably connected, the outer side wall of at least one module unit is provided with a plurality of accommodating holes (111), and the outer side wall of at least one module unit is provided with a first external thread (121);

a bottom layer (200) detachably connected to the bottom of the module layer (100), wherein the outer side wall of the bottom layer (200) is provided with a second outer thread (210).

2. The modular layered dental implant of claim 1, wherein: every the bottom and the top of module unit are equipped with first connection structure (130) and second connection structure (140) respectively, first connection structure (130) with second connection structure (140) pair the back and link together, and every two are adjacent from top to bottom module unit divide into module unit and lower module unit, go up module unit first connection structure (130) with lower module unit second connection structure (140) cooperation is connected.

3. The modular layered dental implant of claim 2, wherein: the first connecting structure (130) is a circular truncated cone structure with a large top and a small bottom, the second connecting structure (140) is a taper hole structure with a large top and a small bottom, the taper of the outer side wall of the first connecting structure (130) is Morse taper, and the taper of the inner side wall of the second connecting structure (140) corresponds to the taper of the outer side wall of the first connecting structure (130).

4. The modular layered dental implant of claim 2, wherein: the top of the bottom layer (200) is provided with a third connecting structure (220), the third connecting structure (220) is connected with the first connecting structure (130) after being paired, and the first connecting structure (130) of the module unit positioned at the bottom end of the module layer (100) is connected with the third connecting structure (220) in a matching manner.

5. The modular layered dental implant of claim 1, wherein: the outer wall is equipped with the modular unit of accommodation hole (111) is bionical unit (110), the external diameter of bionical unit (110) is less than the external diameter of second external screw thread (210).

6. The modular layered dental implant of claim 5, wherein: the module unit with the first external thread (121) on the outer side wall is a thread unit (120), and at least one bionic unit (110) is arranged between the thread unit (120) and the bottom layer (200).

7. The modular layered dental implant of claim 6, wherein: the outer diameter of the screw unit (120) is larger than the outer diameter of the second external screw (210).

8. The modular layered dental implant of claim 5, wherein: the outer diameters of all the bionic units (110) are gradually increased from bottom to top.

9. The modular layered dental implant of claim 5, wherein: all the accommodating holes (111) on the outer side wall of any one bionic unit (110) are uniformly distributed along the axial direction and the circumferential direction of the bionic unit (110).