KR20120004204A - Surface treated micro implant and its manufacturing method - Google Patents

Abstract

PURPOSE: A surface treated micro implant for straightening of irregular teeth and a method for manufacturing the same is provided to prevent the generation of infection and to improve the initial stability of the implant. CONSTITUTION: A surface treated micro implant for straightening of irregular teeth include includes a body(20), a non-treated part(40), a surface treated part(50), a smoothen part(60), and a head(30). The non-treated part is arranged at the body. The surface treated part is arranged at the body except for the non-treated part. A protrusion part(31) is formed at the head. The smoothen part is arranged at the head.

Description

SURFACE TREATED MICRO IMPLANT AND ITS MANUFACTURING METHOD}

The present invention relates to a surface-treated orthodontic micro-implant and a method for manufacturing the same, especially when the micro-implant is to be placed on the gum for orthodontics, cutting on the lower tip of the body so that the micro-implant can be easily placed on the gum The central part, which maintains the surface, is placed in the cortical bone and provides resistance from the force of the orthodontic force for orthodontic treatment, is subjected to surface treatment of appropriate roughness to promote bone adhesion, and smoothed at the upper part which contacts the soft tissue of the gum. By treatment to prevent inflammation, effective micro-implant procedures can be achieved.

In general, dental implants can be roughly divided into prosthetic implants and orthodontic implants.

Prosthetic implants are a method of prosthetic treatment that restores aesthetics and function by planting artificial teeth in areas where teeth are missing due to accidents or tooth decay.

The outer diameter of the body and the thread of the implant used in the above is generally configured to be generally long with a thickness of about 5 ~ 8mm, the surface of the prosthetic implant as a means for increasing bone adhesion in the implanted state in the alveolar bone Surface treatment using a variety of methods, that is, roughening process is carried out to achieve a strong bone adhesion.

In addition, in the case of prosthetic implants, once placed in the alveolar bone, there is no need to pull it out unless there is a special problem. Surface treatment is over.

However, unlike orthodontic implants, the orthodontic micro-implant is small, about 1 to 2 mm in diameter and about 6 to 10 mm in length, and is temporarily placed on the side of the gum only during orthodontics, and then the orthodontic bracket is attached to the teeth. It is not possible to surface treatment over the entire surface like the prosthetic implant because the orthodontic spring is to be tangled using an elastic spring or elastic rubber, and the orthodontic is to be corrected and removed from the gum after orthodontic.

In other words, when the surface is processed by rough processing on the entire surface of the micro implant, bone adhesion may be firm, but it is difficult to remove it after correction because of the strong bone adhesion, and because of the rough surface when placing the micro implant on the gum. There is a disadvantage that does not easily penetrate into.

In particular, in the process of screwing and fixing the micro-implant into the gum, there is a risk of bacterial growth due to a wound on the soft tissue part of the gum, and an inflammation occurs because the environment is created for the bacteria to grow on roughly surface-treated irregularities. Because of this, there is a possibility that the surface treatment can not be applied to the entire surface of the micro implant due to the use characteristics of the product.

Because of these problems, currently used orthodontic micro-implants are used after cutting and disinfecting products by using CNC lathes.

Therefore, in the case described above, there is no difficulty in placing the micro-implant into the gum, but there is a problem in that the resistance to support the corrective elasticity is lowered due to the insufficient adhesion of the bone after the implantation, and especially in the cutting operation using the cutting tool of the CNC lathe. Stepped cutting edges (edges) are generated on the curved portion, and the cutting edges create an environment where bacteria can multiply and cause inflammation, and the success rate of micro-implant procedures is currently maintained at about 70-80%. It is not true.

The present invention, in the construction of orthodontic micro-implants in order to rectify the above-mentioned drawbacks of the conventional, not only facilitate the placement of the micro-implants but also promotes bone adhesion in the implanted state to provide resistance by orthodontic elasticity and In addition, it prevents the initial stability and inflammation is configured to enable a more effective micro implant procedure.

As a means for solving the above problems, the present invention comprises a conventional orthodontic micro-implant consisting of a spiral-shaped body and a head having a locking means, but comprises an untreated portion at the bottom of the body, with a suitable roughness at the center of the body The surface treatment part is composed, and the upper surface and the head of the body is composed of a smooth surface treatment process, so that the micro-implant can be easily placed by the cutting surface of the unprocessed portion formed at the bottom of the body, and after the center of the body Promote bone adhesion through the surface treatment unit configured in, and the smoothing treatment unit configured on the top to prevent the induction of inflammation by contacting the soft tissue of the gum.

In the present invention, in the construction of orthodontic micro-implants, the surface is treated with a suitable roughness in the central portion of the spiral-formed body, and the top and the head of the body is smoothed, but the cutting surface is formed on the lower end of the body. When the micro implant is intended to be placed in the gum, the insertion can be easily performed by the cutting surface configured at the lower end of the body, and in the state where the micro implant is placed in the gum, the micro-corrugated surface surface-treated on the center of the body is cortical bone It is located within the body to promote bone adhesion, and the smooth surface of the upper body and head contact with the soft tissues of the gums, so that the micro-implant procedure can not only secure the initial stability and solve the problem of inflammation, but also corrective elasticity Stable resistance to the The micro-implants will be able to be made.

1 is a side configuration diagram of a general micro implant to be applied to the present invention
2: A state in which the surface is smoothed and smoothed on the body and the head except for the tip located at the bottom in the state of FIG. 1.
FIG. 3: A state diagram in which the surface is treated with an appropriate roughness in the center portion of the body where the spiral is formed in the state of FIG. 2
4: Exemplary view of a full-scale enlarged photograph of the surface-treated state in the center of the body in the present invention
Figure 5 is another exemplary view of a real specimen enlarged picture of the surface treatment in the center portion of the body in the present invention
Figure 6 is another exemplary view of a real sample enlarged photograph of the surface treatment in the center portion of the body in the present invention
Figure 7 is another exemplary view of a real specimen enlarged picture of the surface treatment in the center portion of the body in the present invention
Figure 8 is another exemplary view of a full-size specimen of the surface treatment in the center portion of the body in the present invention
Figure 9 is another exemplary view of a real specimen enlarged picture of the surface treatment in the center portion of the body in the present invention

Hereinafter, the surface-treated micro-implant to be provided by the present invention and a manufacturing method thereof will be described in detail with reference to the accompanying drawings.

First, the configuration of the micro-implant to be provided in the present invention will be described.

1 is a side configuration diagram of an implant which is generally used, and is composed of a body 20 having a spiral 21 and a head 30 having a locking portion 31 formed thereon, which is cut using a CNC lathe.

In the state of FIG. 1, the micro-implant 10 is visually divided into three parts so that the untreated portion 40 is formed at a portion where the lowermost cutting surface 22 of the body 20 is formed, as shown in FIG. 3, and the body 20. In the center except for the upper part 23 and the lower part of the unprocessed part 40, a surface treatment part 50 processed with a constant roughness is formed, and the body 20 is partially smoothed on the surface of the upper part 23 and the head 30. The processing unit 60 is configured.

In the micro-implant 10 having the above-described configuration, the unprocessed portion 40 formed at the bottom of the body 20 maintains the state of the micro-implant cutting process as it is to be placed in the gum for the micro-implant 10 for orthodontic correction. It can be easily placed by the cutting surface 22 when.

In addition, the surface treatment unit 50 is roughly processed in the center of the body 20 when the micro-implant 10 is placed on the gum for orthodontic contact to facilitate contact with the cortical bone located in the gum to promote bone adhesion This can be done.

In the above, the rough processing of the surface treatment unit 50 may be provided with various means, but in the present invention, the surface roughness was processed to about 0.7 to 1 μm through a laser processing machine.

4 to 9 are enlarged photographs of the surface treatment unit 50 which is processed by laser processing at the center of the body 20 of the micro-implant 10 to be provided by the present invention. 20) Various types of irregularities can be formed in the center.

The treatment method of the smoothing treatment unit 60 formed on a part of the upper body 23 and the body 20 may be provided with various means such as a physical treatment method or a chemical treatment method such as sand blast. By using the chemical treatment method as a means to make the cutting edge (edge) part generated by the cutting tool during the CNC lathe smoothly processed, the smoothing processing unit 60 when the micro implant 10 is placed on the gum for orthodontic correction ) In contact with the soft tissue area of the gum.

Therefore, even when a wound occurs on the soft tissue site during the implantation of the micro implant 10, the smoothing treatment unit 60 of the micro implant 10 in contact with the soft tissue site is smoothly treated because the surface of the microimplant 10 is not provided so that the bacterial growth space is not provided. The occurrence of can be prevented.

Briefly explaining an example of the chemical treatment method carried out in the above, when preparing a 1 L treatment solution, a mixture of 452 cc of water (H ₂ O) and 540 cc of nitric acid (HNO ₃ ) and 8 cc of hydrofluoric acid (H ₂ F ₂ ) is treated. A solution is obtained, the micro-implant is immersed in the treatment solution, left for several minutes, separated from the treatment solution, neutralized, washed with water and sterilized.

Surface treatment method of the orthodontic micro-implant 10 to be provided in the present invention is as follows.

First, a conventional micro-implant 10 as shown in FIG. 1 is cut by using a CNC lathe.

As shown in FIG. 1, a part of the cutting surface 22 formed at the bottom of the body 20 of the cut micro implant 10 is gripped with a tool, except for a portion where the cutting surface 22 is formed in the chemical treatment tank. The whole part is immersed so that the untreated part 40 is formed at the bottom of the body 20 as shown in FIG. 2, and the smoothed processing part 60 which is smoothly processed is configured.

The lower part of the lower part of the body 20 and the upper part 23 and the head of the body 20 are put into the laser processing machine by inserting the micro-implant 10 smoothed on the remaining parts except the lower part of the lower part of the body 20. Except for 30), that is, the surface treatment unit 50 is composed of a roughness of about 0.7 ~ 1㎛ in the center of the body 20.

Therefore, the processed state using the CNC lathe is maintained in the lower end portion 40 of the body 20 constituting the micro-implant 10, the surface treatment portion 50 is configured in the center of the body 20, the body ( 20) The smoothing treatment unit 60 is configured at a part of the upper end 23 and the head 30.

Briefly explaining an example of the chemical treatment method carried out in the above, when preparing a 1 L treatment solution, a mixture of 452 cc of water (H ₂ O) and 540 cc of nitric acid (HNO ₃ ) and 8 cc of hydrofluoric acid (H ₂ F ₂ ) is treated. A solution is obtained, the micro-implant is immersed in the treatment solution, left for several minutes, separated from the treatment solution, neutralized, washed with water and sterilized.

Therefore, the orthodontic micro-implant 10 to be provided in the present invention allows the micro-implant 10 to be easily implanted in the gum by the unprocessed portion 40 configured at the bottom of the body 20, the body in the implanted state (20) Since the surface treatment unit 50 configured in the center is located in the cortical bone of the gum to promote bone adhesion, a solid placement can be expected, and the smoothing processing unit 60 smoothly processed during the contact with the soft tissue of the gum Because of this, there is no space for germ growth, which will prevent inflammation.

Therefore, it is possible to increase the surgical success rate of the micro implant.

(10)-Micro Implant (20)-Body
(21)-Helix (22)-cutting surface
(23)-Top (30)-Head
(31)-Hang Part (40)-Untreated
(50)-Surface Treatment (60)-Smooth Treatment

Claims (4)

In constructing a conventional orthodontic micro-implant consisting of a spiral-shaped body and a head having a locking portion, the untreated portion 40 is formed at the bottom of the body 20 constituting the micro-implant 10, the body 20 ) The upper surface 23 and the body 20, except for the untreated portion 40 at the bottom of the body 20 to form a rough surface-treated portion 50 is processed roughly in the form of unevenness, a portion of the upper body 23 of the body 20 Surface-treated orthodontic micro-implant, characterized in that the smooth surface of the smoothing treatment unit 60 is formed separately in the head 30, the engaging portion 31 is formed. The surface-treated orthodontic micro-implant according to claim 1, wherein the unprocessed portion 40 positioned at the bottom of the body 20 is configured such that the cutting surface 22 is configured to be easily placed. . In manufacturing the orthodontic micro-implant, the micro-implant 10 consisting of the body 20 with the spiral 21 and the head 30 formed with the engaging portion 31 is cut using a CNC lathe, The lower part of the body 20 of the micro implant 10 is fixed with a tool, and then chemically treated by immersing the remaining portion except the lower part of the body 20 in a chemical treatment tank. The part is to have a smoothed processing unit 60 is a smooth surface is formed, except in the above state, the lower portion of the body 20, the unprocessed portion 40, a portion of the upper body 23 of the body 20 and the head 30 The surface treatment unit 50 is formed by roughly processing the center of the body 20 in the form of an unevenness, so that the untreated portion 40 is formed at the bottom of the body 20 of the micro-implant 10, and the surface treatment portion 50 is formed at the center thereof. ), The body 20, the top 23 work And head 30 is a smooth surface smoothing processing method of (60) is also a micro implant orthodontic a surface treatment which is characterized by to be formed on. According to claim 3, wherein the surface treatment unit 50 is processed in the center of the body 20 of the micro-implant 10 of the surface-treated orthodontic micro-implant, characterized in that fine roughness is configured using a laser processing machine Manufacturing method.

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