KR102542783B1 - Hybrid abutment block - Google Patents

Abstract

The present invention relates to a hybrid abutment block, and more particularly, by injection molding a polymer material on the outer surface of a base member made of titanium alloy, thereby having excellent strength and aesthetics, and by a spiral groove formed on the outer surface of the base member. It relates to a hybrid abutment block with high binding force as it can prevent rotation and separation of polymer materials.

Description

Hybrid abutment block {Hybrid abutment block}

The present invention relates to a hybrid abutment block, and more particularly, by injection molding a polymer material on the outer surface of a base member made of titanium alloy, thereby having excellent strength and aesthetics, and by a spiral groove formed on the outer surface of the base member. It relates to a hybrid abutment block with high binding force as it can prevent rotation and separation of polymer materials.

An implant means a substitute for restoring human tissue when it is lost, and in particular, in the field of dentistry, it means a procedure for transplanting artificially made teeth.

In general, an implant is a fixture placed in the alveolar bone and performing the role of the root of a tooth, a tooth-shaped prosthesis artificially manufactured to form a jaw in harmony with the surrounding teeth, and a screw connection to fix and support the fixture and the prosthesis to each other. It consists of butt.

Looking at the implant procedure, a fixture is placed in the alveolar bone from which teeth have fallen out, bone formation is induced, an abutment, which is an intermediate means, is screwed to the fixture, and a prosthesis manufactured in the shape of a tooth is placed on top of the abutment. to complete the procedure.

On the other hand, the abutment is an important part that affects not only the function and aesthetics of the implant, but also the lifespan, and the abutment considering the height of the gums and the shape of the teeth around the implant of the patient increases the maintenance and lifespan of the implant.

These abutments are divided into ready-made abutments that are mass-produced with standardized standards and custom-made custom abutments. Since it is not considered, an error occurs between the prosthesis and the gum and between the prosthesis and the tooth, causing food to be caught, causing inflammation or creating a space between the prosthesis and the abutment, so that the prosthesis may be broken by chewing force.

Therefore, rather than a ready-made abutment with a shape and size manufactured in advance, the size, shape, and contour of the prosthesis, occlusion with surrounding teeth, individual tooth characteristics, and gum condition are reflected in the patient-specific processing, thereby minimizing work errors. The distribution of custom abutments, which can reduce the size and ideally manufacture prostheses, is expanding.

These custom abutments are made of materials such as titanium and zirconia, and are made by processing the abutment block with a processing machine (CAM) after designing it with 3D CAD equipment to suit the patient's oral environment.

However, in the case of an abutment made of titanium material, when a prosthesis is fastened due to the color of the material, the color of the material is projected onto the prosthesis, causing an aesthetic problem. In the case of an abutment made of zirconia material, it is inserted into the fixture The body to be fixed is made of titanium, and it is manufactured by bonding or pressing the upper cap made of zirconia to the body, or by casting through wax-up. Compared to the abutment made of titanium, the risk of fracture is higher and the risk of separation is higher. , there is a risk of plaque deposition around the adhesive site.

KR 10-1898413 B1 "Abutment for implant using pacton and manufacturing method thereof" KR 10-2012-0130882 A "Metal-reinforced zirconia abutment by brazing"

The present invention has been made to solve the above problems, and an object of the present invention is to provide a hybrid abutment block having excellent strength and esthetics and having improved bonding strength between materials.

On the other hand, the object of the present invention is not limited to the purpose mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to solve the above problems, the present invention is an abutment block for supporting a prosthesis by being combined with a fixture inserted into the alveolar bone, having a screw insertion hole formed by penetrating vertically into an internal space, screwed into the fixture base member; and a polymer member injection-molded in a round bar shape on the outer surface of the base member, wherein the polymer member is processed in a patient-specific manner to cover and fasten the prosthesis to the hybrid abutment block. .

In a preferred embodiment, the base member is made of a titanium alloy material.

In a preferred embodiment, the base member: the polymer member is injection-formed on the outer surface, the support portion of a circular bar shape elongated vertically; and an insertion part integrally formed at a lower end of the support part and inserted into the fixture, wherein the polymer member is formed on the base member to expose the insertion part.

In a preferred embodiment, on the outer surface of the support part, a first spiral groove rotated in a right direction and a second spiral groove rotated in a left direction cross each other.

In a preferred embodiment, a sandblasting operation may be performed on the outer surface of the base member.

In a preferred embodiment, the screw insertion hole: an upper insertion hole having a first diameter; and a lower insertion hole smaller than the first diameter are integrally formed to pass through, and the lower insertion hole is larger than the upper insertion hole. A stepped engaging portion is formed between the upper insertion hole and the lower insertion hole because the diameter thereof is small.

In a preferred embodiment, the polymeric element consists of Pekkton or PEEK.

In a preferred embodiment, the base member is integrally formed with a head portion for fixing to a processing machine (CAM) extending from an upper end of the support portion when processing the polymer member.

In a preferred embodiment, the outer surface of the upper end of the insertion portion protrudes in a circumferential direction, and a stepped portion supporting the polymer member is provided.

In a preferred embodiment, a polygonal protrusion corresponding to the shape of the polygonal groove of the fixture is formed on the lower outer surface of the insertion part.

The present invention has the following excellent effects.

According to the hybrid abutment block of the present invention, a polymer member is injection molded into a base member made of titanium alloy and having spiral grooves intersecting each other on the outer surface, so that the mutual bonding force between the base member and the polymer member is excellent and processing is easy. There are advantages.

In addition, according to the hybrid abutment block of the present invention, the polymer member formed on the outer surface of the base member is composed of high molecular polymers such as pectone and peak, so that the physical properties are excellent and the color of the base member is not projected, and it is similar to natural teeth. It has the advantage of improving aesthetics by having a similar color.

1 is a view showing a hybrid abutment block according to an embodiment of the present invention;
2 is an exploded view of a hybrid abutment according to an embodiment of the present invention;
3 is an internal cross-sectional view of a hybrid abutment according to an embodiment of the present invention.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible, but in certain cases, there are terms arbitrarily selected by the applicant. Therefore, its meaning should be understood.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the one embodiment described herein and may be embodied in other forms. Like reference numbers indicate like elements throughout the specification.

1 is a perspective view showing a hybrid abutment block according to an embodiment of the present invention, Figure 2 is an exploded view of the hybrid abutment block according to an embodiment of the present invention, Figure 3 is according to an embodiment of the present invention Internal cross-sectional view of the hybrid abutment block.

1 to 3, the hybrid abutment block 100 of the present invention is tailored to the patient by reflecting the size, shape, contour, occlusion of the prosthesis, the characteristics of individual teeth, and the condition of the alveolar bone and gum. As a custom abutment in the form of a block to be processed and used, the polymer member can be processed in a patient-specific manner and then overlaid with a prosthesis and fastened.

In addition, the hybrid abutment block 100 of the present invention includes a base member 110 screwed to a fixture inserted into the alveolar bone and a polymer member 120 injection-molded on the outer surface of the base member.

In addition, the hybrid abutment block 100 of the present invention may further include a screw 1 for screwing the fixture and the base member 110 together.

First, the base member 110 is made of a titanium alloy that is eco-friendly and has excellent strength, and a screw insertion hole S penetrating up and down is formed into an internal space.

In addition, the base member 110 includes a head portion 111, a support portion 112 formed integrally extending from the lower end of the head portion 111, and an insertion portion 113 inserted into the fixture.

The head part 111 is formed to fix the polymer member 120 to a processing machine (CAM) used during processing, and after the polymer member 120 is processed, cutting or processing unnecessary parts is unnecessary. is carried out

In addition, the head part 111 may be formed in various shapes that can be fixed to a processing machine (CAM), and the shape is not limited.

The support portion 112 has a vertically elongated round bar shape, and the polymer member 120 is injection molded on an outer surface thereof.

In addition, spiral grooves 112a and 112b that cross each other are formed on the outer surface of the support part 112 .

In detail, the spiral grooves 112a and 112b include a first spiral groove 112a rotated in the right direction on the outer surface of the support part 112 and a second spiral groove 112b rotated in the left direction and depressed formed by intersecting with each other.

Therefore, when the polymer member 120 is injection-molded on the outer surface of the support part 112, the liquid polymer member permeates the spiral grooves 112a and 112b and then cools to become a solid state, the polymer member ( 120) has the advantage of not only fixing the vertical movement even when a load is applied, but also preventing rotation in the axial direction.

In addition, a surface treatment may be performed on the outer surface of the support part 112 to improve bonding strength with the polymer member 120, and sandblasting may be performed among various surface treatment methods.

Here, the sandblasting operation is a method of trimming or cutting the surface by blowing sand or abrasives with compressed air to form irregularities on the surface of the metal product, and through this, the spiral grooves formed on the outer surface of the support part 112 By increasing the surface area of (112a, 112b) it is possible to strengthen the bonding force between the base member 110 and the polymer member 120 during injection molding.

The insertion part 113 integrally extends from the lower end of the support part 112, and a stepped part 113a protruding in the circumferential direction is provided on the outer surface of the upper end of the insertion part 113, and the polymer member ( 120), the stepped portion 113a serves to support the polymer member 120.

In addition, a polygonal anti-rotation protrusion 113b corresponding to the polygonal groove shape formed at the top of the fixture is formed on the outer surface of the lower end of the insertion part 113.

Meanwhile, a polygonal groove is formed at an upper end of the fixture, which is intended to be combined with a prosthesis to be coupled in a certain direction, and is generally a hexagonal groove, but is not limited thereto.

The screw insertion hole (S) is formed by integrally extending insertion holes having different diameters, and includes an upper insertion hole (S1) and a lower insertion hole (S2).

In detail, an upper insertion hole S1 having a first diameter into which the head of the screw can be inserted and a lower insertion hole S2 having a second diameter smaller than the first diameter are formed into the upper insertion hole S1. ) is integrally formed at the bottom of the

Accordingly, a stepped engaging part (a) is formed between the upper insertion hole (S1) and the lower insertion hole (S2), and when the screw (1) is inserted, the screw (1) is attached to the engaging part (a). It is possible to prevent the screw 1 from being inserted into the fixture more than necessary by the head of ) being caught.

The polymer member 120 is processed into various shapes according to the characteristics of each patient by a processing machine (CAM), and is made of a polymer material having excellent biological stability and physical properties.

In addition, the polymer member 120 is injection-molded in a round bar shape on the outer surface of the support part 112 so that the insertion part 113 is exposed, and the high-molecular polymer material includes Pekkton, PEEK, and the like. can be used

In addition, the polymer member 120 may be manufactured in various shapes as needed other than the round bar shape, and the shape is not limited.

Therefore, in the hybrid abutment block 100 of the present invention, the polymer member 120 is integrally formed by injection molding without performing separate bonding, pressing, or casting operations on the base member 110. It is possible to minimize coupling errors between members and errors generated during processing of the polymer member 120, and to improve the convenience of work.

In addition, the hybrid abutment block 100 of the present invention can prevent the unique color of the titanium alloy material from being projected through the polymer member 120, and pectone, peak, etc. having a color similar to that of real teeth By using the polymer-based member, there is an aesthetically excellent effect.

As described above, the present invention has been shown and described with preferred embodiments, but is not limited to the above embodiments, and to those skilled in the art within the scope of not departing from the spirit of the present invention Various changes and modifications will be possible.

100: hybrid abutment block 110: base member
111: head part 112: support part
113: insertion part 120: polymer member

Claims (10)

In the abutment block for supporting a prosthesis by being combined with a fixture inserted into the alveolar bone,
A base member integrally formed with a vertically elongated round bar support and a lower end of the support, having an insertion part inserted into the fixture and a screw insertion hole formed from an upper end of the support to a lower end of the insertion part; and
A polymer member that is injection molded into a round bar shape in which a separate shape is not processed on the outer surface of the base member and is formed to expose the insertion portion; and
Hybrid abutment block, characterized in that the outer surface of the support is formed with a first spiral groove rotated in the right direction from the top to the bottom and a second spiral groove rotated in the left direction and intersected with each other . According to claim 1,
The base member is a hybrid abutment block, characterized in that made of a titanium alloy material. According to claim 1,
Hybrid abutment block, characterized in that the sandblasting operation is performed on the outer surface of the base member. According to claim 1,
The screw insertion hole: silver
An upper insertion hole having a first diameter; and
A lower insertion hole smaller than the first diameter; is integrally formed through,
A hybrid abutment block, characterized in that a stepped engaging portion is formed between the upper insertion hole and the lower insertion hole because the diameter of the lower insertion hole is smaller than that of the upper insertion hole. According to claim 1,
The hybrid abutment block, characterized in that the base member is integrally formed with a head part for fixing to a processing machine (CAM) when processing the polymer member and extending integrally with the upper end of the support part. According to claim 1,
Hybrid abutment block, characterized in that the upper outer surface of the insertion portion protrudes in the circumferential direction, and a stepped portion for supporting the polymer member is provided.
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